1 J E S 2 J O B L O G -- S Y S T E M 3 0 8 1 -- N O D E G E N - 10.10.36 JOB 6966 &IEF677I WARNING MESSAGE(S) FOR JOB JUVPH4 ISSUED 10.10.36 JOB 6966 $HASP373 JUVPH4 STARTED - INIT 6 - CLASS S - SYS 3081 10.19.32 JOB 6966 $HASP395 JUVPH4 ENDED 1 //JUVPH4 JOB JUV$ZK,TIME=2,MSGLEVEL=(2,0),MSGCLASS=F JOB 6966 ***JOBPARM LINES=70 2 // EXEC WUNPRESS,WDSN='ZK.JUV.PH4PZ0' 9 // EXEC JFORTCLG,GRGN=2000K 16 //C.SYSPRINT DD DUMMY 18 //C.SYSIN DD DSN=&&CARDS,DISP=(OLD,DELETE) 41 //G.FT01F001 DD UNIT=SCR,DISP=(NEW,PASS),SPACE=(CYL,(1,1)), // DCB=(RECFM=VBS,BLKSIZE=2048) 42 //G.FT02F001 DD UNIT=SCR,DISP=(NEW,PASS),SPACE=(CYL,(1,1)), // DCB=(RECFM=VBS,BLKSIZE=2048) 43 //G.FT03F001 DD UNIT=SCR,DISP=(NEW,PASS),SPACE=(CYL,(1,1)), // DCB=(RECFM=VBS,BLKSIZE=2048) 44 //G.FT04F001 DD UNIT=SCR,DISP=(NEW,PASS),SPACE=(CYL,(1,1)), // DCB=(RECFM=VBS,BLKSIZE=2048) 45 //G.FT08F001 DD UNIT=SCR,DISP=(NEW,PASS),SPACE=(CYL,(1,1)), // DCB=(RECFM=VBS,BLKSIZE=2048) 46 //G.FT16F001 DD DISP=SHR,LABEL=(,,,IN),DSN=ZK.JUV.MSS.A0SGS ***G.FT18F001 DD DISP=(NEW,CATLG,DELETE),UNIT=SYSDA, *** SPACE=(TRK,(25,2),RLSE),DSN=ZK.JUV.MFL01, *** DCB=(RECFM=FB,LRECL=90,BLKSIZE=3600) 47 //G.SYSIN DD * ***NOTIFY JUV$ZK ***FETCH ***JOBPARM S=3081 ****YOUR CHARGES NOW OVER 90% OF YOUR BUDGET************************************ **** SEE YOUR GROUP REPRESENTATIVE NOW*************************************** STMT NO. MESSAGE - 35 IEF686I DDNAME REFERRED TO ON DDNAME KEYWORD IN PRIOR STEP WAS NOT RESOLVED IEF142I JUVPH4 W - STEP WAS EXECUTED - COND CODE 0000 IEF373I STEP /W / START 83356.1010 IEF374I STEP /W / STOP 83356.1010 CPU 0MIN 00.10SEC SRB 0MIN 00.01SEC VIRT 36K SYS 200K IEF142I JUVPH4 C - STEP WAS EXECUTED - COND CODE 0000 IEF373I STEP /C / START 83356.1010 IEF374I STEP /C / STOP 83356.1011 CPU 0MIN 02.67SEC SRB 0MIN 00.33SEC VIRT 800K SYS 260K IEF142I JUVPH4 L - STEP WAS EXECUTED - COND CODE 0000 IEF373I STEP /L / START 83356.1011 IEF374I STEP /L / STOP 83356.1011 CPU 0MIN 00.66SEC SRB 0MIN 00.06SEC VIRT 260K SYS 296K IEF142I JUVPH4 G - STEP WAS EXECUTED - COND CODE 0000 IEF373I STEP /G / START 83356.1011 IEF374I STEP /G / STOP 83356.1019 CPU 0MIN 33.59SEC SRB 0MIN 06.26SEC VIRT 1992K SYS 312K IEF375I JOB /JUVPH4 / START 83356.1010 IEF376I JOB /JUVPH4 / STOP 83356.1019 CPU 0MIN 37.02SEC SRB 0MIN 06.66SEC ******************************************************************************* **************** C E R N C O M P U T A T I O N C E N T E R **************** ********************* IBM S/370- 3081 <=> VS2-REL 3.8J********************* ++---------------------------------------------------------------------------++ || JOB NAME: JUVPH4 ||| || PROGRAMMER NAME: STEPS 4 || || ACCOUNT NUMBER: JUVZK || ++---------------------------------------------------------------------------++ || START: 10:10:36.6 22/12/83 STOP: 10:19:32.5 22/12/83 SYSIN: 15 || || CARDS READ: 41 / LINES PRINTED: 23903 / CARDS PUNCHED: || || I/O: TOTAL 14769 / DISK 3776 / TAPE 0 / MSS 10458 || || / VIO 535 / DMY 0 / OTHER 0 || || CPU: TASK 37.02 / SRB 6.66 || || 85.10 / 15.31 (NORMALIZED VALUES) || ++---------------------------------------------------------------------------++ || PAGES: IN 9 / OUT 285 VIO PAGES: IN 147 / OUT 237 || || SWAPS: NUMBER 1 / PAGES IN 0 / PAGES OUT 0 || ++---------------------------------------------------------------------------++ || PAGECPU: 1434.8003E+004 SERV UNITS: 568340 PERF. GROUP: 2 || || 3298.3914E+004 (NORMALIZED VALUE) || ++---------------------------------------------------------------------------++ ********************* J O B C O S T: 109.27 SF ********************* ********************* ********************* ***** CPU % 32.07 I/O % 67.92 TAPE % 0.00 MEM % 0.00 ***** ******************************************************************************* 1DATA SET SUCCESSFULLY CONVERTED FROM EDIT TO EBCDIC FORMAT 1 F64-LEVEL LINKAGE EDITOR OPTIONS SPECIFIED LET,LIST,MAP DEFAULT OPTION(S) USED - SIZE=(262144,65536) 0 0 MODULE MAP 0 CONTROL SECTION ENTRY 0 NAME ORIGIN LENGTH NAME LOCATION NAME LOCATION NAME LOCATION NAME LOCATION PHASE4 00 62AE OPT4 62B0 C52 TAPIN 6F08 B2BE ORIGIN 121C8 2FA COORDN 124C8 1AC POINTP 12678 23C LOOKP 128B8 272 SETSEC 12B30 21B4 POINTS 14CE8 25E LOOKS 14F48 272 TITLE 151C0 7A8 HEADIN 15968 2CE HEADM 15C38 368 HEADQ 15FA0 4C4 BLAZER 16468 35A BLANC 167C8 2B6 RNDOFF 16A80 356 Z2CHEM 16DD8 310 LINCOM 170E8 C46 LINCHK 17D30 ABC COMBIN 187F0 7D4 INTAB 18FC8 1C76 LABSAV 1AC40 4EFE LABSUM 1AC70 SORT 1FB40 79E DERIV 202E0 9CC MASTAB 20CB0 1484 QTAB 22138 148E MAPLES 235C8 132E DATIME * 248F8 1F4 JZLSQRTS* 24AF0 110 JZLSSQRT* 24C00 B8 F#SQRT 24C00 SQRT 24C00 IH$SQRT 24C00 JZLCONT * 24CB8 E94 JZLCONT1* 25B50 418 JZLCONT#* 25F68 644 JZLIDSI * 265B0 31E JZLIDSI#* 268D0 498 JZLACLS * 26D68 1B0 JZLACLS#* 26F18 17C JZLALOC * 27098 5DC JZLALOC#* 27678 4F5 1 0 NAME ORIGIN LENGTH NAME LOCATION NAME LOCATION NAME LOCATION NAME LOCATION JZLEALC# 276A4 JZLCONE@* 27B70 258 JZLDELT * 27DC8 18E JZLDEL# * 27F58 74 JZLEDTO * 27FD0 15EC JZLEDTO#* 295C0 F4 JZLERRM * 296B8 D8 JZLERRM#* 29790 8C JZLE900 * 29820 14A JZLE900#* 29970 1FA JZLFREE * 29B70 1EE JZLFREE#* 29D60 224 JZLGETA * 29F88 CE JZLGETA#* 2A058 C4 JZLFREA# 2A076 JZLFREM# 2A094 JZLGLCA * 2A120 1B4 JZLGLCA#* 2A2D8 184 JZLGPRN# 2A2FE JZLDLCA# 2A336 JZLINIT * 2A460 E84 JZLINIT#* 2B2E8 518 JZLFEND# 2B310 JZLSCHK * 2B800 D12 JZLSCHK#* 2C518 5C0 JZLECHK# 2C570 JZLSCLS@* 2CAD8 284 JZLSIWT@* 2CD60 30C JZLSOPN@* 2D070 D08 JZLSEOD@* 2DD78 56 JZLSSYN@* 2DDD0 EA JZLSTOP * 2DEC0 234 JZLSTOP#* 2E0F8 188 JZLSTRK@* 2E280 2E2 JZLSWRT@* 2E568 610 JZLTRBK * 2EB78 94 JZLTRBK#* 2EC10 8C JZLTIWT * 2ECA0 8 JZLTIWT#* 2ECA8 3CC JZLTWRT# 2EE74 JZLSACS * 2F078 37B JZLSACS#* 2F3F8 378 JZLSRED@* 2F770 7CC JZLSSKP@ 2F7CA JZLEACS * 2FF40 357 JZLEACS#* 30298 3A0 JZLFCTI@* 30638 29B JZLFPSI@* 308D8 53B JZLSFMI * 30E18 334 JZLSFMI#* 31150 3D8 JZLFCTO@* 31528 39F JZLFMT@ * 318C8 5DE JZLFPSO@* 31EA8 647 JZLSFMO * 324F0 2E4 1 0 NAME ORIGIN LENGTH NAME LOCATION NAME LOCATION NAME LOCATION NAME LOCATION JZLSFMO#* 327D8 398 JZLSUFI * 32B70 318 JZLSUFI#* 32E88 2AC JZLUMVI@* 33138 23A JZLUPSI@* 33378 5A0 JZLSUFO * 33918 27E JZLUMVO@* 33B98 254 JZLUPSO@* 33DF0 50C JZLSUFO#* 34300 2AC DTZ007 * 345B0 183 JZLIXPIF* 34738 C6 JZLFIXPI* 34800 C4 F#AIXI 34800 FIXPI# 34800 F#F#AIXI 34800 JZLSQRTL* 348C8 D0 JZLLSQRT* 34998 BC F#DSQRT 34998 DSQRT 34998 IH$DSQRT 34998 IUBACK * 34A58 1CA IUFORW 34A7A JZLACCS * 34C28 24C JZLACCS#* 34E78 1D8 JZLLCA# * 35050 138C JZLALCA# 35050 JZLLCA * 363E0 8 JZLEDTI * 363E8 1300 JZLEDTI#* 376E8 38C JZLIDSO * 37A78 2E6 JZLIDSO#* 37D60 498 JZLLSTO * 381F8 CCC JZLLSTO#* 38EC8 7B5 UBUNCH * 39680 CC UBLOW 396F4 IUCOMP * 39750 5C JZLXINI * 397B0 8 JZLXINIT* 397B8 EC XZER 398A8 38 MAT 398E0 142440 PMASS 17BD20 5288 TMASS 180FA8 E5B4 SMASS 18F560 8988 STANDS 197EE8 7D4 DEGREE 1986C0 6D80 STD4 19F440 3EC TABDAT 19F830 34 ISOMER 19F868 3929C OPTCRD 1D8B08 320 PPOINT 1D8E28 4B4 SPOINT 1D92E0 4B4 SECOND 1D9798 A500 SLATE 1E3C98 A0 ENTRY ADDRESS 00 1 0 0 TOTAL LENGTH 1E3D38 ****MAIN DOES NOT EXIST BUT HAS BEEN ADDED TO DATA SET AUTHORIZATION CODE IS 0. 1BEGINNING PHASE 4 OF ATOMIC MASS ADJUSTMENT 0OPTIONS FOR PHASE 4 PHASE 4 OPTIONS START FROM INVERTED MATRIX ON MSS PUBLICATION 30 LINES 85 INPUTAB,COMBINED C MASSTAB,PUNCH TABLE 1 TABLE 2 TABLE 6 TABLE 7 ANALYSIS MASSTAB INPUTAB,COMBINED TABLE 4 END OPTIONS 0READING FILES FROM TAPE FILE 1 5006 RECORDS FILE 2 1593 RECORDS FILE 3 3062 RECORDS FILE 4 782 RECORDS FILE 8 2 RECORDS 0SYSTEM THAT HAS BEEN SOLVED: 1542 equations in 782 unknowns LENGTH OF INVERTED MATRIX 306153 should be within 330000 (dimension statement) 0XZERO 0.9315012 0.0000003 0 STANDARD MASSES KEV MMU 120060 0.0 0.0 0.0 0.0 1 A T O M I C M A S S A D J U S T M E N T 0 DATE 831222 TIME 1018 0 A= 0 TO 266 0 ADJUSTED INPUT DATA LIST for publication (rounding threshold 30) 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S pi+ 140078.3 .5 140078.3 0.5 P0 1 .0 pi+(2B+)pi- 1022.006 .003 1022.006 0.003 73CoTa 1 .0 H12-C 93900.32 .12 93900.42 0.14 71Sm01 B7 2.5 1 .3 D6-C 84610.62 .09 84610.67 0.14 71Sm01 B7 2.5 1 .2 84611.47 .40 76Ka50 J6 2.5 U -.8 H2-D 1548.286 .004 1548.291 0.006 71Sm01 B7 2.5 1 .5 1548.298 .008 75Sm02 B8 2.5 1 -.4 1548.301 .005 75Sm02 B8 2.5 1 -.8 1548.28 .05 78Ha14 M25 2.5 U .1 1548.190 .023 76Ka50 J6 2.5 U 1.8 1H(n,g)2H 2224.59 .026 2224.574 0.006 78Vy02* - -.6 2224.564 .017 80Gr02 - .6 2224.575 .009 82Va13 - -.1 2224.574 .009 83Ad05 - .0 ave 2224.574 0.006 average 1 .0 *1H(n,g)2H Original value 2224.572(0.040) corrected for calibration 80Gr02 D2-H 3H 4329.257 .003 4329.255 0.007 75Sm02 B8 2.5 1 -.2 H D-3He 5897.512 .005 5897.507 0.008 75Sm02 B8 2.5 1 -.4 5897.496 .006 81Sm02 B9 2.5 1 .8 2H(n,g)3H 6257.38 .20 6257.281 0.009 79Br25*69Pr06 U -.5 3H(B-)3He 18.645 .016 18.594 0.008 72Be11* B -3.2 18.614 .013 76Tr07* - -1.6 18.567 .020 81Si18* - 1.3 18.594 .025 82Di01 - -.0 18.562 .03 83De.1 - 1.1 ave 18.595 0.009 average 1 -.2 *2H(n,g)3H S(n)=6257.6(.3,Pr),6257.27(.25,Br) AHW *3H(B-)3He For corrections see ref. 82Di01 *3H(B-)3He Original error .006 provisionally somewhat increased AHW D2-4He 25600.315 .014 25600.318 0.023 75Sm02 B8 2.5 1 .1 H 3H-4He 21271.075 .012 21271.062 0.023 75Sm02 B8 2.5 1 -.4 4H(g,n)3H 8000 3000 2820 380 79Me13* U -1.7 2900 500 69Mi10* 2 -.2 2700 600 81Se11 2 .2 *4H(g,n)3H Found in 7Li(pi,a)4H AHW 4He(n,g)5He -890 50 66La04* 2 4He(p,g)5Li -1965 50 65Ma32* 2 5H(B-)5He 22400 800 * 68Yo06* F 30700 1500 * 81Se.A* F *4He(n,g)5He Average of many reactions leading to 5He 66La04 *4He(p,g)5Li Average of many reactions leading to 5Li 65Ma32 *5H(B-)5He From 3H(t,p)5H AHW *5H(B-)5He From 6Li(pi-,p)5H. F:private communication by author AHW 6Li(p,a)3He 4023 2 4018.4 0.7 53Co02,65Ry01 BIR U -2.3 4018.2 1.1 81Ro02 1 .2 6Li(p,t)4Li -18700 300 65Ce.A 2 6Li(p,n)6Be -5074 13 -5070 5 67Ho01 2 .3 6Li(3He,t)6Be -4306 6 -4307 5 66Wh01 2 -.1 7Li(d,3He)6He -4481.0 .55 -4481.0 0.6 78Ro01* 1 .0 6Li(n,g)7Li 7250.0 .5 7250.1 0.5 70Or05*72Op01 1 .3 7Li(t,3He)7He -11184 30 67St04,69St02 2 7Li(p,n)7Be -1644.30 .08 -1644.24 0.04 70Ro07 - 1.2 -1644.18 .05 80Lo.A AUC - -.6 ave -1644.24 0.04 average 1 .0 7Li(pi+,pi-)7B -11870 100 -11940 70 81Se.A* R -.7 *7Li(d,3He)6He Q-Q(19F(d,3He)18O(1982.16(20)level))=0.98(41) 78Ro01 *6Li(n,g)7Li From gamma to gs and to 477.61 level 79AjSe,AHW *7Li(pi+,pi-)7B Calculated from given M-A=27800(100) AHW 4He(64Ni,60Ni)8He -31816 15 -31800 7 75Ko18* - 1.1 -31796 8 77Tr07 - -.5 ave -31800 7 average 1 .1 8Be(a)4He 91.88 .05 91.88 0.05 68Be02* 1 .0 6Li(3He,n)8B -1974.8 1.0 -1974.8 1.0 65Ry01,58Du78 1 .0 7Li(n,g)8Li 2032.78 .15 2032.78 0.15 74Ju.A 1 -.0 *4He(64Ni,60Ni)8He Calculated from given M-A=31611(17) AHW *8Be(a)4He For atomic binding energy correction see ref. 67St30 9Be(p,a)6Li 2125.4 1.8 2126.2 0.7 67Od01 NDM - .5 6Li(a,p)9Be -2125.6 1.2 -2126.2 0.7 65Br28 - -.5 9Be(p,a)6Li ave 2125.5 1.0 2126.2 0.7 average 1 .7 7Li(t,p)9Li -2385.7 3.0 -2386.2 2.0 75Ka18* 1 -.2 9Be(d,a)7Li 7157 8 7151.8 0.8 64Sp12 MIT - -.7 7153 3 53Co02,65Ry01 BIR - -.4 ave 7153.5 2.8 average 1 -.6 7Be(3He,n)9C -6288.2 5. -6284.6 2.1 67Ba.A 2 .7 -6279.1 4. 71Mo01 2 -1.6 9Be(g,n)8Be -1665 1 -1665.4 0.4 50Mo56,65Ry01 WIS - -.4 9Be(p,d)8Be 559.6 .6 559.2 0.4 67Od01 NDM - -.7 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 9Be(p,d)8Be 560 2 559.2 0.4 53Co02,65Ry01 BIR - -.4 557.5 1. 51Wi26,65Ry01 WIS - 1.7 559.0 1.1 66Re02 - .2 9Be(g,n)8Be ave -1665.4 0.4 -1665.4 0.4 average 1 .0 9Be(pi-,pi+)9He -30484 120 81Se.A* 2 9Be(p,n)9B -1850.5 1.0 50Ri59,65Ry01 WIS 2 *7Li(t,p)9Li Calculated from given M-A=24955.5(3.0) AHW *9Be(pi-,pi+)9He Calculated from given M-A=40810(120) AHW 10B(p,a)7Be 1146 2 1146.2 0.8 52Cr30,65Ry01 WIS - .1 1153 4 64Sp12 MIT - -1.7 ave 1147.4 1.8 average 1 -.7 10B(3He,6He)7B -18550 100 -18480 70 67Mc14* 2 .7 10B(d,a)8Be 17818.6 4.1 17820.0 0.3 67Od01 NDM - .3 10B(p,3He)8Be -535.5 2.5 -533.2 0.3 52Cr30,65Ry01 WIS - .9 10B(d,a)8Be ave 17817.9 2.1 17820.0 0.3 average 1 .9 9Be(9Be,8B)10Li -34060 250 75Wi26 2 10Be(d,3He)9Li -14142.8 2.5 -14142.4 1.9 75Ka18* 1 .2 9Be(n,g)10Be 6812.038 .023 6812.038 0.023 83Ke.2 1 .0 10Be(B-)10B 557. 3.5 556.2 0.5 50Al02,50Fe01 1 -.2 10B(p,n)10C -4433.6 .6 -4433.3 0.4 74Ro21 2 .4 -4433.7 1.5 75Fr.A HAR 2 .3 -4433.0 .6 76Wh.A AUC 2 -.6 *10B(3He,6He)7B Calculated from given M-A=27940(100) AHW *10Be(d,3He)9Li Calculated from given M-A=24955.4(2.5) AHW 9Li-11Li.491 6Li.600 -3890 150 -3580 50 75Th08 P12 1.5 1 1.4 9Li-11Li.409 7Li.643 -1210 90 -1360 40 75Th08 P12 1.5 1 -1.1 -1220 200 75Th08 P13 1.5 1 -.5 9Li-11Li.273 8Li.750 -1920 30 -1921 29 75Th08 P13 1.5 1 -.0 -1930 30 75Th08 P12 1.5 1 .2 11B(p,a)8Be 8589 4 8590.4 0.4 53Co02,65Ry01 BIR 1 .3 9Be(t,p)11Be -1170 15 -1166 6 62Pu01 R .3 11B(d,a)9Be 8029 4 8031.2 0.5 54El10,65Ry01 BIR - .5 8024 7 64Sp12 MIT - 1.0 8029.7 2.8 67Od01 NDM - .5 9Be(3He,p)11B 10322.1 2.3 10322.0 0.5 67Od01 NDM - -.0 11B(d,a)9Be ave 8030.0 1.6 8031.2 0.5 average 1 .8 10Be(d,p)11Be -1721 7 -1720 6 70Go11 - .1 -1725 15 R011Be 9Be - .3 ave -1722 6 average 1 .2 10B(n,g)11B 11454.12 .22 11454.17 0.22 83De.B 1 .2 11C(B+)11B 1982.8 2.6 1982.1 0.8 75Be28 - -.3 11B(p,n)11C -2760.1 3. -2764.5 0.8 50Ri59,65Ry01 WIS - -1.6 -2763.3 1.4 61Be13,65Ry01 RIC - -.8 11B(3He,t)11C -2002.3 1.2 -2000.7 0.8 65Go05 - 1.3 11C(B+)11B ave 1982.1 0.8 1982.1 0.8 average 1 -.0 10B 37Cl-C 35Cl 9987.21 .56 9986.8 0.3 83Ba.A H38 2.5 1 -.3 12C(a,8He)8C -64278 26 -64267 23 76Tr01* - .4 -64227 50 R014N 8C - -.8 ave -64267 23 average 1 .0 12C(3He,6He)9C -31578 8 -31574.2 2.6 71Tr03 R .5 -31576.2 3.2 79Ka.A* R .6 10Be(t,p)12Be -4809 15 78Al29 2 10B(t,p)12B 6346 6 6342.2 1.3 60Ja17 1 -.6 10B(a,d)12C 1340.6 1.5 1339.88 0.30 65Br28 - -.5 1340.3 .8 56Do41,65Ry01 WIS - -.5 12C(d,a)10B -1340.1 1.2 -1339.88 0.30 65Br28 - .2 10B(3He,p)12C 19693.05 .38 19693.07 0.30 83Ch08* - .1 10B(a,d)12C ave 1340.0 0.3 1339.88 0.30 average 1 -.3 11B(d,p)12B 1137 5 1145.3 1.4 64Sp12 MIT 1 1.7 12C(pi+,pi-)12O -31034 48 -31040 40 80Bu15 - -.2 -31088 120 R016O 12O - .4 ave -31040 40 average 1 .0 *12C(a,8He)8C Calculated from given M-A=35100(30) AHW *12C(3He,6He)9C If Q=-18589.8 for 13C(3He,6He)10C(3350.8 level) 79Ka.A *10B(3He,p)12C Original Q=15305.45(.3,Ch) to 4438.91(.31) level, 80AjSe *10B(3He,p)12C revised by authors in Q=15253.95 to 4439.10(.22) level AHW 11B 37Cl-13C 35Cl 2998.15 1.30 3000.5 0.4 83Ba.A H38 2.5 1 .7 C H-13C 4470.10 .05 4470.209 0.013 78Ha14 M25 2.5 U .9 4470.185 .008 75Sm02 B8 2.5 1 1.2 C D-13C H 2921.923 .008 2921.918 0.013 75Sm02 B8 2.5 1 -.3 2921.87 .05 78Ha14 M25 2.5 U .4 11B(t,p)13B -233.4 1.0 83An.1 2 11B(3He,p)13C 13185.4 4.0 13185.2 0.4 67Od01 NDM 1 -.0 12C(n,g)13C 4946.374 .024 4946.344 0.013 81Va.B* 1 -1.2 12C(p,g)13N 1943.31 .32 1943.51 0.27 77Fr20 - .6 1944.01 .5 77He26* - -1.0 ave 1943.51 0.27 average 1 .0 *13Be(g,n)12Be 13Be first n rich particle stable isotope of Be 74Bo05 *12C(n,g)13C Q(g)=1261.854(.006), 81Va.B *12C(n,g)13C to 3684.516(.030,Va),3684.482(.023,Wa) level 81Va.B,80Wa24 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S *12C(p,g)13N Original error .22 seems low compared with 77Fr20 AHW C D2-14C H2 9311.498 .006 9311.507 0.010 75Sm02 B8 2.5 1 .6 C H2-N 12576.086 .009 12576.068 0.011 71Sm01 B7 2.5 1 -.8 C D-N 11027.815 .018 11027.777 0.010 71Sm01 B7 2.5 1 -.8 11027.773 .007 75Sm02 B8 2.5 1 .2 C H4-N D 14124.17 .14 14124.359 0.015 76Ka50 J6 2.5 U .5 C D2-N H2 9479.68 .13 9479.486 0.013 76Ka50 J6 2.5 U -.6 14C H2-N D 1716.269 .003 1716.271 0.007 75Sm02 B8 2.5 1 .2 14N(3He,9Li)8C -42214 50 -42254 24 76Ro04 R -.8 14N(3He,6He)11N -24710 150 74Be20* 2 14C(d,a)12B 361.8 1.4 361.4 1.3 56Do41,65Ry01 WIS 1 -.3 14N(p,t)12N -22135.5 1.0 75No.A* 2 14C(7Li,7Be)14B -21499 30 -21506 21 73Ba34 2 -.2 14C(14C,14N)14B -20494 30 -20487 21 81Na.A* 2 .2 14C(p,n)14N -625.88 .09 -625.866 0.009 73Hi.A 1 -.0 14N(p,n)14O -5925.46 .08 -5925.46 0.07 81Wh03 AUC 1 .0 14N(3He,t)14O -5161.3 .8 -5161.71 0.08 77Vo02 U -.5 *14N(3He,6He)11N Q=-25030(100) to presumed 320(100) level 74Be20 *14Be(g,2n)12Be 14Be particle stable,13Be not 74Bo05 *14N(p,t)12N Calculated from given M-A=17338(1) AHW *14C(14C,14N)14B Calculated from given M-A=23670(30) AHW 14N D-15N H 9241.780 .008 9241.781 0.020 75Sm02 B8 2.5 1 .0 14C(d,p)15C -1006.5 .8 56Do41,65Ry01 WIS 2 14N(p,g)15O 7297.1 .9 7297.0 0.5 72Ne05 R -.1 15N(p,n)15O -3534.9 1.1 -3536.3 0.5 72Je02 - -1.4 -3537.1 .8 72Sh08 - 1.1 -3536.2 .9 R015O 14N - -.1 ave -3536.3 0.5 average 1 .0 C H2 D-O 34837.202 .020 34837.219 0.021 75Sm02 B8 2.5 1 .3 C D2-O 33288.940 .019 33288.928 0.021 75Sm02 B8 2.5 1 -.3 14C H2-O 23977.413 .014 23977.422 0.020 75Sm02 B8 2.5 1 .2 N D-O 22261.160 .013 22261.151 0.020 75Sm02 B8 2.5 1 -.3 N2-C O 11233.43 .21 11233.374 0.024 76Ka50 J6 2.5 U -.1 16O(a,8He)12O -66020 120 -65970 50 78Ke06 R .4 16O(3He,6He)13O -30506 13 -30509 10 71Tr03 2 -.2 -30512 14 70Me11* 2 .2 14C(t,p)16C -3013 4 -3013 4 78Se04 2 -.1 -3015 8 77Fo09 2 .2 14C(3He,p)16N 4983 4 4980.1 2.3 66Ga08 R -.7 16O(p,t)14O -20406.6 .6 -20404.47 0.08 77Ba.C* U 3.6 14N(3He,n)16F -970 15 -957 8 68Ad03 R .9 15N(d,p)16N 286 12 266.2 2.3 55Pa50,65Ry01 CIT 2 -1.6 269 10 57Wa01,65Ry01 2 -.3 267 8 64Sp12 MIT 2 -.1 270 10 66He10 2 -.4 16O(3He,t)16F -15430 10 -15436 8 80Ja.A 2 -.6 16O(pi+,pi-)16Ne -27763 45 -27704 20 80Bu15 2 1.3 *16O(3He,6He)13O Calculated from given M-A=23107(15) AHW *16O(p,t)14O As calculated from given 14O(B+) to T=1 state AHW *16B(g,n)15B 16B first n-rich particle unstable isotope of B 66Po09 14C(a,n)17O -1819.07 2.0 -1817.3 0.4 56Sa06,65Ry01 WIS 1 .8 16O(n,g)17O 4143.46 .83 4143.6 0.4 77Mc05 - .2 16O(d,p)17O 1918.9 .5 1919.0 0.4 82Pi.A - .3 16O(n,g)17O ave 4143.5 0.4 4143.6 0.4 average 1 .3 16O(p,g)17F 600.35 .28 600.46 0.23 75Ro05 - .4 16O(d,n)17F -1623.9 .4 -1624.12 0.23 60Bo21,65Ry01 - -.5 16O(p,g)17F ave 600.46 0.23 600.46 0.23 average 1 -.0 *17B(g,2n)15B 17B particle stable,16B not 74Bo05 14C(7Li,3He)18N -10293 60 -10122 20 80Kr.A* C 2.9 18O(48Ca,51V)15B -21760 50 -21768 23 78Bh02 2 -.2 -21768 25 83Ho08 2 .0 18O(d,a)16N 4236 7 4246.7 2.5 55Pa50,65Ry01 R 1.5 4244 4 67Sp09 MIT R .7 16O(3He,p)18F 2044 15 2032.1 0.7 59Hi67 - -.8 2033 5 59Yo25 - -.2 ave 2034 5 average 1 -.4 16O(3He,n)18Ne -3205 13 -3196 5 61Du02,65Ry01 2 .7 -3198 6 61To03,65Ry01 2 .3 18O(48Ca,49Ti)17C -17465 35 77No08* 2 18O(t,a)17N 3872 15 60Ja13 2 17O(p,g)18F 5606.2 .6 5606.6 0.6 75Ro05 1 .7 18O(pi-,pi+)18C -26712 150 -26690 130 78Se07 2 .1 18O(48Ca,48Ti)18C -21331 300 -21400 130 82Na04* 2 -.2 18O(t,3He)18N -14038 30 -13881 20 69St07 C 5.2 18O(7Li,7Be)18N -14761 20 83Pu01* 2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 18O(d,2p)18N -15270 100 -15341 20 78De.A U -.7 18O(14C,14N)18N -13833 35 -13743 20 81Na.A* C 2.6 18O(p,n)18F -2437.14 .73 -2437.7 0.7 64Bo13 1 -.7 18Ne(B+)18F 4438 9 4446 5 63Fr10 R .9 *14C(7Li,3He)18N Calculated from given M-A=13290(60) AHW *18O(48Ca,49Ti)17C Calculated from given M-A=21023(35) AHW *18O(48Ca,48Ti)18C Calculated from given M-A=24820(300) AHW *18O(7Li,7Be)18N Calculated from given M-A=13116(20) AHW *18O(7Li,7Be)18N Other authors did not resolve narrow quadruplet in 18N 83Pu01 *18O(14C,14N)18N Calculated from given M-A=13207(35) AHW C D4-H 19F 50178.88 .05 50178.86 0.12 75Sm02 B8 2.5 1 -.2 19F(p,a)16O 8115 10 8113.74 0.12 50Ch53,65Ry01 - -.1 8115 10 57Yo04,65Ry01 CIT - -.1 8122 9 64Sp12 MIT - -.9 ave 8118 6 average 1 -.7 17O(t,p)19O 3524 7 3519.4 2.8 65Mo19 R -.7 18O(18O,17F)19N -19374 50 -19388 19 81Na.A* 2 -.3 18O(48Ca,47Sc)19N -16540 20 -16539 19 83Ho08* 2 .0 18O(208Pb,207Bi)19N -18440 150 -18349 19 79Ba31 U .6 18O(d,p)19O 1727 8 1732.4 2.7 54Mi89,65Ry01 2 .7 1732 8 54Th30 CIT 2 .1 1735 8 55Ho28 2 -.3 1731 5 57Ah19,65Ry01 2 .3 1727 8 64Sp12 MIT 2 .7 1734 10 65Mo16 2 -.2 19O(B-)19F 4800 15 4819.6 2.8 59Jo26,59Al06 R 1.3 19F(p,n)19Ne -4020.7 .8 -4020.7 0.6 66Ma60 - -.1 -4019.6 1.9 61Be13 RIC - -.6 -4021.1 1.0 61Ry04 ZUR - .4 ave -4020.7 0.6 average 1 .0 *19C(g,n)18C 19C is particle stable 74Bo05 *18O(18O,17F)19N Calculated from given M-A=15856(50) AHW *18O(48Ca,47Sc)19N Calculated from given M-A=15872(20) AHW 20Ne(3He,8Li)15F -29960 200 -29830 130 78Be26 2 .6 -29730 180 78Ke06 2 -.6 20Ne(a,8He)16Ne -60150 80 -60208 21 78Ke06 R -.7 -60197 23 83Wo01 R -.5 20Ne(3He,6He)17Ne -26190 50 70Me11* 2 18O(t,p)20O 3082.4 1.9 82An12* 2 18O(3He,p)20F 6875.2 1.5 6877.4 0.9 70Ro06 1 1.5 19F(n,g)20F 6601.33 .14 6601.30 0.14 83Hu.1 1 -.2 20F(B-)20Ne 7039 5 7028.9 2.0 76Ge08*52Al30 1 -2.0 20Ne(p,n)20Na -14669.1 7. 71Wi07* 2 *20Ne(3He,6He)17Ne Calculated from given M-A=16479(50) AHW *20C(g,2n)18C 20C is particle stable 81St23 *18O(t,p)20O Calculated from given M-A=3795.60(1.94) AHW *20F(B-)20Ne E-=5406(17,Al),5419(13,Wo),5416(15,Al),5405(5,Ge) 54Wo23,59Al06 *20F(B-)20Ne to 1633.67 level 83AjSe *20Ne(p,n)20Na Recalibrated to 24Mg(p,n) T=15281.2(4) 76Fr13 18O(18O,15O)21O -12574 70 -12550 50 78Na02* 2 .4 18O(208Pb,205Pb)21O -6860 75 -6890 50 76Ba03*79Ba31 2 -.4 19F(t,p)21F 6200 25 6221 8 56Ja31,65Ry01 R .9 6227 12 62Hi01,65Ry01 R -.5 20Ne(n,g)21Ne 6760.8 1.5 6760.6 1.4 70Se14 1 -.1 20Ne(p,g)21Na 2431.4 .6 75Ro08*72Du17 2 21O(B-)21F 8150 175 8180 50 81Al07 U .2 *18O(18O,15O)21O Calculated from given M-A=8153(70) AHW *18O(208Pb,205Pb)2 Calculated frim given M-A=8095(75) AHW *20Ne(p,g)21Na E(exc)=3543.4(.4,Du),3544.8(.6,Ro), AHW *20Ne(p,g)21Na at 1168.8(.4,Bl) resonance 69Bl03 18O(18O,14O)22O -19060 100 -19010 90 76Hi10 2 .5 18O(208Pb,204Pb)22O -6710 180 -6860 90 79Ba31 2 -.9 22Ne(t,a)21F 4545 10 4546 7 61Si03,65Ry01 2 .1 21Ne(p,g)22Na 6738.5 1.7 6738.2 1.5 70An06 1 -.2 22Ne(t,3He)22F -10834 30 69St07 2 22Na(B+)22Ne 2842.0 .5 2842.0 0.5 68Be35*68We02 1 -.0 22Al(e)22Mg 18440 90 IMME * 3 *22Na(B+)22Ne E+=543.9(1.5,Be),545.5(.5,We),545(1,Gi), 72Gi17 *22Na(B+)22Ne to 1274.52 level 78EnVa *22Al(e)22Mg From E(T=2)=14070(40) in Ne,14047(15,Ca) in Mg,0 in F 78EnVa,82Ca16 23Na(p,a)20Ne 2377 3 2378.9 1.8 53Do04,65Ry01 WIS - .6 2373 8 64Sp12 MIT - .7 ave 2376.5 2.8 average 1 .9 22Ne(n,g)23Ne 5200.2 2.0 70Se14 2 22Ne(p,g)23Na 8794.0 1.5 8793.8 1.4 71Pi08 1 -.1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 23F(B-)23Ne 8510 170 74Go17 3 23Na(p,n)23Mg -4844.2 5. -4840.6 1.3 63Ok01,65Ry01 JAP - .8 -4836.5 6. 58Bi41,65Ry01 RIC - -.7 -4848.0 7. 58Go77,65Ry01 - 1.1 -4836 3 62Fr09,65Ry01 HAR - -1.5 ave -4839.1 2.2 average 1 -.7 24Mg(3He,8Li)19Na -32876 12 75Be38 2 24Mg(a,8He)20Mg -60677 27 76Tr03* 2 24Mg(3He,6He)21Mg -27512 18 -27508 16 71Tr03 2 .2 -27488 40 70Me11* 2 -.5 22Ne(t,p)24Ne 5584 10 61Si03,65Ry01 2 24Mg(p,t)22Mg -21194 3 -21197.4 1.3 74Ha02 2 -1.1 -21198.3 1.5 74No07 2 .6 23Na(n,g)24Na 6959.48 .08 6959.48 0.08 83Hu.2*83Ti02 1 .0 23Na(p,g)24Mg 11691.2 1.1 11690.8 0.6 72Me09 1 -.4 24Mg(p,d)23Mg -14307.5 1.5 -14306.8 1.3 74No07 1 .5 24Na(B-)24Mg 5513.5 1.0 5513.6 0.6 65Be24*64Le09 1 .1 24Mg(p,n)24Al -14660.7 3.9 69Ov01* 2 24Mg(pi+,pi-)24Si -23588 52 -23666 19 80Bu15 2 -1.5 *24Mg(a,8He)20Mg Calculated from given M-A=17570(30) AHW *24Mg(3He,6He)21Mg Calculated from given M-A=10889(40) AHW *23Na(n,g)24Na S(n)=6959.73(.14,Hu),6959.42(.08,Ti) AHW *23Na(n,g)24Na S(n)=6959.41(.12,Gr,if 14N(n,g)=10833.31) 74Gr37,AHW *24Na(B-)24Mg E-=1394(2,Be),1393(2,Le),1389.7(1.4,Ge),1389(2,Gi), 76Ge06,72Gi17 *24Na(B-)24Mg 1389(2,De) to 4122.84 level 61De25,78EnVa *24Mg(p,n)24Al T as corrected by ref. 76Fr13,69Ov01 23Na(t,p)25Na 7492 12 7488 6 62Hi01 1 -.3 24Mg(n,g)25Mg 7330.6 .2 7330.74 0.19 80Is02,82Hu02 1 .7 24Mg(p,g)25Al 2271.3 .8 71Ev01,72Pi07 2 25Ne(B-)25Na 7400 300 7200 90 73Go11 2 -.7 25Na-26Na.721 22Na.284 -2880 30 -2907 13 75Th08 P13 1.5 1 -.6 -2920 25 75Th08 P13 1.5 1 .3 26Mg(7Li,8B)25Ne -22050 100 -22070 100 73Wi06 R -.2 26Mg(d,3He)25Na -8649 10 -8651 6 73Be14 - -.2 26Mg(t,a)25Na 5664 12 5670 6 62Hi01 - .5 26Mg(d,3He)25Na ave -8652 8 -8651 6 average 1 .2 25Mg(n,g)26Mg 11092.7 .2 11092.84 0.19 80Is02,82Hu02 1 .7 25Mg(p,g)26Al 6305.7 .5 6306.45 0.24 74De37*79El11 R 1.5 26Mg(pi-,pi+)26Ne -17676 72 80Na12 2 26Mg(t,3He)26Na -9292 20 -9289 16 74Fl01 - .1 26Mg(7Li,7Be)26Na -10182 50 -10170 16 72Ba35* - .2 26Mg(t,3He)26Na ave -9293 19 -9289 16 average 1 .2 26Mg(p,n)26Al -4787.14 .55 -4786.39 0.15 69De27 2 1.4 26Mg(3He,t)26Al -4021.9 2.0 -4022.65 0.15 74Ha35* U -.4 -4022.50 .17 82Ko28* 2 -.9 26Mg(3He,t)26Alm -4251.3 .6 -4250.96 0.15 77Vo02 U .6 26Alm(it)26Al 228.31 .01 82Al29 3 *25Mg(p,g)26Al S(p)=6305.0(1.2,De),6304.9(1.1,El),6306.0(0.5,Al) 82Al19 *26Mg(7Li,7Be)26Na Origiginal value 10222(30) corrected for AHW *26Mg(7Li,7Be)26Na unresolved state at 80 74Fl01 *26Mg(3He,t)26Al Q-Q(27Al(3He,t)27Mg)=808.2(2.0),Q(Al)=-4930.1(.3) AHW *26Mg(3He,t)26Al From Q(26Mg(3He,t)26Al(1057.739 level)-14N(3He,t)14O)= 82Al19 *26Mg(3He,t)26Al =81.47(.15,Ko) and 14N(3He,t)14O Q=-5161.71(.08) 81Wh03,AHW 24Na-27Na.356 22Na.655 -3010 40 -3013 16 75Th08 P11 1.5 1 -.0 26Na-27Na.770 22Na.236 -1440 80 -1330 40 75Th08 P13 1.5 1 .9 26Na-27Na.481 25Na.520 700 60 677 25 75Th08 P11 1.5 1 -.3 730 80 75Th08 P12 1.5 1 -.4 23Na(a,g)27Al 10090.0 1.3 10090.3 0.6 78Ma23 1 .3 27Al(p,a)24Mg 1600.9 .5 1600.41 0.18 67St30 - -1.0 1600.14 .21 78Ma23 - 1.3 ave 1600.25 0.19 average 1 .8 26Mg(18O,17F)27Na -13295 55 -13300 40 78Pa12 R -.1 26Mg(n,g)27Mg 6443.6 .5 6443.6 0.5 70Se07,82Hu02 1 -.0 26Mg(p,g)27Al 8271.0 .5 8271.88 0.28 78Ma24 1 1.8 27Na(B-)27Mg 8900 150 8940 40 69Kl08*73Al13 - .3 8933 55 R027Na 26Mg - .1 ave 8930 50 average 1 .2 27Al(p,n)27Si -5593.8 .26 77Na24 AUC 2 *27Na(B-)27Mg Q-=7600(500,Kl),7950(150,Al) to 984.4 level 78EnVa 25Na-28Na.446 22Na.568 -5870 70 -5910 60 75Th08 P11 1.5 1 -.3 26Na-28Na.619 22Na.394 -4200 130 -4160 90 75Th08 P12 1.5 1 .2 -4180 90 75Th08 P13 1.5 1 .2 28Si(3He,8Li)23Al -34274 25 75Be38 2 28Si(a,8He)24Si -61433 21 -61420 21 80Tr04 R .6 28Si(3He,6He)25Si -27981 10 72Be12* 2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 28Si(p,t)26Si -22009 3 74Ha02 2 27Al(n,g)28Al 7725.18 .05 82Sc14*80Is02 2 27Al(p,g)28Si 11586.3 .3 11584.6 0.3 74Ho36 B -5.5 11584.9 .7 69Me14* - -.4 11584.5 .4 78Ma23 - .3 11585.0 .7 78Da08 - -.5 ave 11584.7 0.3 average 1 -.1 28Mg(B-)28Al 1831.8 2.0 54Ol03*54Sh28 3 28Si(p,n)28P -15115.3 4.9 -15114 4 69Ov01* 2 .2 -15112.5 6. 71Go18* 2 -.3 28Si(pi+,pi-)28S -24603 160 82Mo12 2 *28Si(3He,6He)25Si Calculated from given M-A=3824(10) AHW *27Al(n,g)28Al S(n)=7725.18(.09,Sc),7725.2(.06,Is),7725.08(.02,Su) 81Su.A *27Al(p,g)28Si Original value 11585.6 corrected for recalibration 81Va.Z *28Mg(B-)28Al E-=459(2,Ol),418(10?,Sh) to 1372.8 level. 78EnVa *28Si(p,n)28P T as corrected by ref. 76Fr13,69Ov01 *28Si(p,n)28P Recalibrated to 24Mg(p,n) T=15281.2(.4) 76Fr13,71Go18 26Na-29Na.512 22Na.506 -5760 90 -5630 80 75Th08 P11 1.5 1 .9 -5800 300 75Th08 P12 1.5 1 .4 -5580 70 75Th08 P13 1.5 1 -.5 27Na-29Na.466 25Na.540 -1710 120 -1820 80 75Th08 P11 1.5 1 -.6 18O(13C,2p)29Mg -1446 50 -1507 30 81Pa17* R -1.2 26Mg(11B,8B)29Mg -19720 50 -19738 30 74Sc26 2 -.4 26Mg(18O,15O)29Mg -9207 55 -9123 30 78Pa12 2 1.5 26Mg(a,p)29Al -2874 10 -2863 5 68Be13 R 1.1 27Al(t,p)29Al 8683 6 8679 5 60Ja17,65Ry01 2 -.7 28Si(n,g)29Si 8473.944 .012 8473.944 0.012 83Ke.2 1 -.0 28Si(p,g)29P 2747.1 1.7 70Go13,73Ba35 2 *18O(13C,2p)29Mg Calculated from given M-A=-10780(50) AHW 26Na-30Na.433 22Na.591 -7500 300 -7390 110 75Th08 P11 1.5 1 .2 -7160 210 75Th08 P12 1.5 1 -.7 -7520 120 75Th08 P13 1.5 1 .7 27Na-30Na.360 25Na.648 -2750 210 -2530 100 75Th08 P11 1.5 1 .7 26Mg(18O,14O)30Mg -16234 55 -15900 210 78Pa12* C 6.0 29Si(n,g)30Si 10609.53 .03 10609.53 0.03 83Ke.2 1 -.0 29Si(p,g)30P 5597 3 5601.4 1.6 67Ha15 2 1.5 5604 2 68Be16 2 -1.3 30Na(B-)30Mg 17140 300 17300 240 83De04 1 .5 30Mg(B-)30Al 6690 240 6790 210 83De04 1 .4 30Si(t,3He)30Al -8520 40 -8520 40 69Aj03 1 -.1 30Si(p,n)30P -5012.1 5. -5008.1 1.6 75Fr.A HAR R .8 *26Mg(18O,14O)30Mg Tentative,four counts only 78Pa12 29Na H2-31Na 5800 400 79Th.A P5 1.5 2 26Na-31Na.373 22Na.657 -7500 300 -7910 560 75Th08 P12 1.5 U -.9 18O(15N,2p)31Al -170 90 -160 70 81Pa11 R .1 27Al(a,g)31P 9667.4 1.3 9668.8 0.4 78Ma23 U 1.1 31P(p,a)28Si 1915.8 .2 1915.79 0.20 67St30 1 -.0 30Si(n,g)31Si 6588.4 .3 70Sp02*70Be48 2 30Si(p,g)31P 7297.4 1.2 7296.61 0.20 68Wo01 1 -.7 31Mg(B-)31Al 10150 700 11300# 400# 83De04 C 1.6 31Al(B-)31Si 7850 100 7860 70 73Go22 3 .1 *30Si(n,g)31Si S(n)=6587.5(.8,Sp),6589.1(.7,Be),6588.4(.3,Dz) 72Dz13 30Na H2-32Na 6700 500 79Th.A P5 1.5 2 26Na-32Na.325 22Na.709 -8600 500 -8600 700 75Th08 P12 1.5 U -.0 32S(3He,8Li)27P -31277 35 77Be13 2 32S(3He,6He)29S -25520 50 73Be09 2 30Si(t,p)32Si 7307 1 7308.6 2.4 80An.A 2 1.6 32S(p,t)30S -19614 3 74Ha02 2 31P(n,g)32P 7936.3 .6 7936.5 0.5 67Ly06*67Va08 1 .3 31P(p,g)32S 8864.9 .7 8864.5 0.6 72Co13*74Vi02 1 -.6 32S(p,d)31S -12817.8 1.5 73Mo23 2 32Na(B-)32Mg 18300 1400 83De04 3 32Si(B-)32P 221.4 1.2 225.0 2.4 83Po.1 R 3.0 32P(B-)32S 1710.1 .7 1710.3 0.6 68Fi04,57Po36 1 .3 32S(p,n)32Cl -13466.7 16. -13469 8 69Ov01* 2 -.1 -13469.6 9. 71Go18* 2 .1 32S(pi+,pi-)32Ar -22815 50 80Bu15 2 *31P(n,g)32P S(n)=7935.9(1.0,Ly),7936.8(.8,Va),7935.8(1.0,Or) 70Or05 *31P(p,g)32S S(p)=8864.9(.9,Co),8863.9(1.4,Ve),8865.1(.9,Vi) 73Ve08 *32S(p,n)32Cl T as corrected by ref. 76Fr13,69Ov01 *32S(p,n)32Cl Recalibrated to 24Mg(p,n) T=15281.2(4) 76Fr13,71Go18 31Na H2-33Na 5300 700 79Th.A P5 1.5 3 33S(n,a)30Si 3497.6 5. 3493.1 0.6 81Wa31 U -.9 32S(n,g)33S 8641.7 .1 8641.70 0.10 80Is02*83Ra04 1 -.0 32S(p,g)33Cl 2276.8 .7 76Al01 2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 33Si(B-)33P 5768 50 72Go09 3 33P(B-)33S 248.5 1.5 54Ni06*83Po.1 2 *32S(n,g)33S S(n)=8641.82(.06,Ra),8641.6(.07,Is) AHW *33P(B-)33S Q-=249(2,Ni),248.3(1.3,Po) AHW 32Na H2-34Na 4800 2500 79Th.A P5 1.5 3 30Si(7Li,3He)34P 100 40 100.3 1.6 77Pe17 U .0 34S(d,a)32P 5096 10 5084.5 0.6 78Ba30 U -1.2 33S(n,g)34S 11417.12 .05 11417.11 0.05 83Ra04 1 -.1 33S(p,g)34Cl 5140.3 1.5 5142.44 0.16 77Da02 U 1.4 5142.36 .19 83Ra04 1 .4 34Si(B-)34P 4700 300 77Na05 4 34S(t,3He)34P -5368 20 -5355.7 1.2 77Aj01 U .6 34S(p,n)34Cl -6274.27 .56 -6274.68 0.17 77Ba16 AUC - -.7 34S(3He,t)34Cl -5510.8 .4 -5510.93 0.17 77Vo02 - -.3 34S(p,n)34Cl ave -6274.5 0.3 -6274.68 0.17 average 1 -.7 C3-35Cl H 23320.8 .3 23322.24 0.07 66Be10 M17 2.5 1 1.9 23322.239 .034 71Sm01 B7 2.5 1 -.0 C5 H10-35Cl2 140545.01 .13 140544.90 0.16 71Sm01 B7 2.5 1 -.4 34S(n,g)35S 6986.00 .05 83Ra04 2 34S(p,g)35Cl 6370.5 .2 6370.50 0.20 76Sp08*83Ra04 1 -.0 35P(B-)35S 3909 75 72Go31 3 35S(B-)35Cl 167.4 1.0 166.84 0.20 57Co62* U -.6 35Cl(p,n)35Ar -6747.2 1.6 -6747.2 1.3 75Fr.A HAR 2 .0 -6747.1 2.1 78Az01 2 -.0 *34S(p,g)35Cl S(p)=6370.40(.23,Ra),6371.6(.4,Sp) -0.95(Ra) 83Ra04,AHW *35S(B-)35Cl Original error 0.2 distrusted 83Ra04 36Ar(3He,8Li)31Cl -29180 50 77Be13 2 36Ar(3He,6He)33Ar -23512 30 74Na07* 2 36S(d,a)34P 4611 10 4604.4 1.2 78Ba30 U -.7 4604.4 1.2 82So.A 3 36Ar(p,t)34Ar -19513 3 74Ha02 2 35Cl(n,g)36Cl 8579.80 .02 8579.801 0.020 82Kr12*81Ke02 1 .0 35Cl(p,g)36Ar 8506.9 .3 8506.70 0.26 72Ho40 1 -.7 36Cl(B-)36Ar 708.7 .6 709.23 0.26 67Sp06 1 .9 36Ar(p,n)36K -13587.7 8. 71Go18* 2 *36Ar(3He,6He)33Ar Calculated from given M-A=-9384(30) AHW *35Cl(n,g)36Cl S(n)=8579.68(.09,Kr),8579.82(.02,Ke) AHW *36Ar(p,n)36K Recalibrated to 24Mg(p,n) T=15281.2(4) 76Fr13,71Go18 C3 H-37Cl 41922.2 .2 41922.42 0.10 66Be10 M17 2.5 1 .4 C2 D8-37Cl H3 123436.51 .12 123436.51 0.11 71Sm01 B7 2.5 1 -.0 C3 H6 O2-37Cl2 104974.24 .08 104974.23 0.16 71Sm01 B7 2.5 1 -.0 D2 35Cl-H2 37Cl 15503.80 .09 15503.60 0.11 77So02 H31 2.5 1 -.9 C10 H24-35Cl2 37Cl2 318290.34 .24 318290.15 0.24 71Sm01 B7 2.5 1 -.3 37Ar(n,a)34S 4630 7 4630.8 0.6 78As06 U .1 36S(n,g)37S 4303.52 0.07 83Ra04 3 36S(d,p)37S 2079.2 .5 2078.95 0.07 82Pi.A U -.5 37Cl(18O,19Ne)36P -13406 55 81Gy.A* 2 36S(p,g)37Cl 8386.34 .23 80No.A 2 36Ar(n,g)37Ar 8789.0 1.2 8787.9 0.6 70Ha56,68Sk02 1 -.9 36Ar(p,g)37K 1857.0 1.4 67Go18 2 37Ar(e)37Cl 814.2 2.3 813.9 0.6 55Sn90 - -.2 37Cl(p,n)37Ar -1597 1 -1596.2 0.6 66Pa18 - .8 -1596.0 1.0 52Sc09,65Ry01 MIT - -.2 -1596.9 2.4 64Jo11 OAK - .3 37Ar(e)37Cl ave 814.2 0.6 813.9 0.6 average 1 -.5 *37Cl(18O,19Ne)36P Calculated from given M-A=-20890(55) AHW 24Mg(16O,2n)38Ca -12720 20 -12753 5 72Zi02* U -1.6 35Cl(a,p)38Ar 837.2 2.4 836.9 0.8 75Sq01 1 -.1 35Cl(a,n)38K -5860.6 1.8 -5858.5 0.9 76Sh24 - 1.3 -5859.1 3.0 R035Cl 38Kxm - .2 ave -5860.3 1.4 average 1 1.3 35Cl(a,n)38Kxm -5989.3 2.9 -5988.7 1.0 75Sq01 R .2 37Cl(n,g)38Cl 6107.85 .10 81Ke02* 2 37Cl(p,g)38Ar 10242.5 1.1 10242.0 0.8 68En01 1 -.5 38S(B-)38Cl 2936 12 71En01,72Vi11 3 38Ar(p,n)38K -6694.99 .75 -6695.4 0.7 78Ja06 1 -.5 38Kxm(it)38K 130.2 .4 77De02 2 *24Mg(16O,2n)38Ca T=24880(30,Zi) to 2206(5) level 78EnVa *37Cl(n,g)38Cl Other value 6107.7(.08 plus .4 for systematic error) 73Sp06 38Ar(p,g)39K 6380.6 1.2 6380.9 1.0 70Ma31 1 .3 39K(p,d)38K -10851 2 -10851.7 1.1 74Wi17 1 -.4 39Cl(B-)39Ar 3430 20 3438 18 56Pe38 3 .4 39Ar(B-)39K 565 5 50Br66 2 39K(p,n)39Ca -7302.5 6. -7312.9 1.8 70Ke08 TAL 2 -1.8 -7314.0 1.8 78Ra15 2 .6 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 40Ca-40Ar 208.2 .5 206.9 0.7 68Fu11 J3 2.5 1 -1.0 40Ca(3He,8Li)35K -29693 20 76Be08 2 40Ca(a,8He)36Ca -57580 40 77Tr03 2 40Ca(3He,6He)37Ca -24270 50 -24348 22 68Bu02 2 -1.6 -24368 25 73Be23* 2 .8 40Ca(p,t)38Ca -20428 11 -20448 5 72Pa02 2 -1.8 -20452 5 74Se05 2 .8 40Ar(t,a)39Cl 7256 40 7289 19 61Ja07 R .8 39K(n,g)40K 7799.55 .08 7799.56 0.08 83Vo.3 1 .1 39K(p,g)40Ca 8329.8 .7 8329.3 0.4 68Li12,68Do12 1 -.7 40Cl(B-)40Ar 7500 500 56Mo39 2 40Ar(p,n)40K -2286.5 1. -2287.2 0.6 66Pa18 - -.7 40K(n,p)40Ar 2286.7 1.0 2287.2 0.6 81We12 - .5 40Ar(p,n)40K ave -2286.6 0.7 -2287.2 0.6 average 1 -.8 40Ca(p,n)40Sc -15102.1 4.1 69Ov01* 2 40Ti(2B+)40Ca 25783 11 IMME * 2 40Ca(pi+,pi-)40Ti -25033 160 -24761 11 82Mo12 U 1.7 *40Ca(3He,6He)37Ca Calculated from given M-A=-13144(25) AHW *40Ca(p,n)40Sc T as corrected by ref. 76Fr13 *40Ti(2B+)40Ca From E(T=2)=4384.0(0.3) in K,11988(2) in Ca,0 in Ar 82Pr05,78EnVa 40Ar(n,g)41Ar 6098.9 .8 6099.1 0.7 70Ha56 1 .2 40K(n,g)41K 10096.24 .10 10096.24 0.10 83Kr.A 1 .0 40Ca(n,g)41Ca 8362.8 .1 8362.80 0.10 80Is02 1 -.0 40Ca(p,g)41Sc 1085.5 1.0 73Al11,77Ko10 2 41Cl(B-)41Ar 5670 160 74Gu10 2 41Ar(B-)41K 2492.0 1.1 2492.3 0.7 64Pa03* 1 .3 41K(p,n)41Ca -1203.8 .5 -1203.7 0.4 70Kn03 1 .2 41Ti(e)41Sc 12944 40 IMME * 3 *41Ar(B-)41K E-=1198.4(1.1,Pa) to 1293.64 level 78EnVa *41Ti(e)41Sc From E(T=3/2)=5940(4) in Sc,5815(25) in Ca,0 in K 78EnVa 28Si(16O,2n)42Ti -17252 13 -17251 6 72Zi02 R .1 40Ar(t,p)42Ar 7043 40 61Ja07 2 40Ca(3He,n)42Ti -2865 6 -2865 5 67Mi02 2 -.1 41K(n,g)42K 7534.4 1.0 70Jo04,72Op01 2 41Ca(n,g)42Ca 11480.7 0.5 11480.8 0.5 83Ra.B 1 .2 42Ca(3He,t)42Sc -6442.3 .4 77Vo02 2 40Ca(a,n)43Ti -11169.9 10. -11172 7 67Al08 2 -.3 42Ca(n,g)43Ca 7932.9 .4 7933.0 0.4 69Gr08,71Bi.A 1 .2 42Ca(p,g)43Sc 4930 2 65Br31,69Wa19 2 43K(B-)43Ca 1817 10 57Ba07,59Be72 2 40Ca(a,g)44Ti 5127.1 .7 82Di05 2 44Ca(d,a)42K 4273 20 4263.7 1.4 77Pa24 U -.5 43Ca(n,g)44Ca 11131.6 .8 11131.9 0.8 72Wh02 1 .3 43Ca(p,g)44Sc 6694 2 6695.0 1.9 71Po.A 2 .5 44K(B-)44Ca 5580 80 5660 40 70Le05 2 1.0 44Ca(t,3He)44K -5660 40 -5640 40 70Aj01 2 .5 44Sc(B+)44Ca 3648 5 3654.5 2.0 50Br52,55Bl23 R 1.3 44Cr(2B+)44Ti 24330 180 IMME * 3 *44Cr(2B+)44Ti From E(T=2)=2787(3) in Sc,9318(20) in Ti,0 in Ca, 78EnVa *44Cr(2B+)44Ti value for Ti is average for split level AHW 44Ca(n,g)45Ca 7414.9 .2 7414.89 0.20 80Is02 1 -.1 44Ca(p,g)45Sc 6888.0 1.2 6889.1 0.9 74Sc02 1 .9 45Ca(B-)45Sc 258 2 256.5 1.0 65Fr12 1 -.7 45Ti(B+)45Sc 2066 5 2062.6 2.4 66Po04 2 -.7 45Sc(p,n)45Ti -2844.2 4. -2845.0 2.4 55Br16,65Ry01 RIC 2 -.2 -2843.6 4.0 70Kn03 2 -.3 45Cr(2B+)45Ti 19545 150 IMME * 3 *45Cr(2B+)45Ti From E(T=3/2)=4730(17) in Ti,4800(50,Ja) in V,0 in Sc 74Ja10 32S(16O,2n)46Cr -17424 20 -17424 20 72Zi02 R .0 46Ti(3He,6He)43Ti -17470 12 -17466 7 77Mu03* R .4 44Ca(t,p)46Ca 9339 20 9329 4 67Bj06 KOP 1 -.5 46Ca(t,a)45K 5998 10 68Sa09 KOP 2 46Ca(d,t)45Ca -4144 10 -4139 4 67Bj05 - .5 46Ca(3He,a)45Ca 10194 10 10181 4 71Ra35 - -1.3 46Ca(d,t)45Ca ave -4135 7 -4139 4 average 1 -.5 45Sc(n,g)46Sc 8760.68 .12 80Li07*82Ti02 2 45Sc(p,g)46Ti 10344.7 .7 10344.9 0.7 71Gu.A 1 .3 46Ti(p,n)46V -7835.2 1.8 -7832.7 0.6 76Sq01 HAR U 1.4 46Ti(3He,t)46V -7069.0 .6 77Vo02 2 46Cr(B+)46V 7603 20 R046Cr 32S 3 *46Ti(3He,6He)43Ti Corrected for calibration AHW *45Sc(n,g)46Sc S(n)=8760.5(.2,Li),8760.77(.14,Ti) AHW C 35Cl-47Ti 17085.94 .82 17088.7 1.1 79Ko10 H32 2.5 1 1.4 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 46Ti 13C-47Ti C 4218.03 .94 4220.3 1.1 79Ko10 H32 2.5 1 1.0 46Ca(n,g)47Ca 7276.1 .5 7276.1 0.5 70Cr04 1 .0 46Ti(d,p)47Ti 6654.3 1.7 6653.0 1.0 76Jo01 NDM 1 -.8 46Ti(p,g)47V 5168.07 0.18 83De.A 2 47Ca(B-)47Sc 1984.5 5. 1988 4 68Fi04,67Hs03 1 .8 47Sc(B-)47Ti 600 2 600.6 1.9 56Gr12 1 .3 13C 35Cl-48Ti 24261.73 .75 24260.2 1.1 79Ko10 H32 2.5 1 -.8 46Ti 37Cl-48Ti 35Cl 1730.29 .87 1732.0 1.1 79Ko10 H32 2.5 1 .8 48Ca(3He,11C)40S -17415 35 79Ko.B* 2 48Ca(3He,8B)43Cl -29070 60 76Ka24 2 48Ca(a,9Be)43Ar -21160 70 74Je01* 2 48Ca(3He,7Be)44Ar -12791 20 76Cr03* 2 48Ca(a,7Be)45Ar -27840 60 74Je01* 2 48Ca(6Li,8B)46Ar -23325 70 -23330 40 74Je01* 2 -.1 48Ca(14C,16O)46Ar -6739 50 -6740 40 80Ma40* 2 .0 48Ca(d,a)46K 1915 15 65Ma07 2 46Ca(t,p)48Ca 8752 20 8738 4 67Bj06 KOP 1 -.7 46Ti(3He,n)48Cr 5550 18 5552 7 67Mi02 1 .1 48Ca(d,3He)47K -10304 12 -10313 7 66Ne01 2 -.8 48Ca(t,a)47K 4006 15 4007 7 66Wi11 2 .1 4001 10 68Sa09 KOP 2 .6 48Ca(d,t)47Ca -3699 10 -3687 4 66Er02 - 1.2 48Ca(3He,a)47Ca 10630 12 10634 4 66Er02 - .3 10642 10 71Ra35 - -.8 48Ca(d,t)47Ca ave -3689 6 -3687 4 average 1 .4 47Ti(n,g)48Ti 11626.60 .05 11626.60 0.05 80Is02*83Ru.2 1 .0 48Ca(7Li,7Be)48K -12961 27 -12954 24 78We14* 2 .3 48Ca(14C,14N)48K -11910 50 -11935 24 80Ma40* 2 -.5 48Ca(p,n)48Sc -534 15 -505 5 67Mc07 - 2.0 -506 7 68Mc10 - .2 ave -511 6 average 1 1.0 48Sc(B-)48Ti 3986 7 3994 5 67Ko01 1 1.1 48V(B+)48Ti 4015 3 4014.9 2.9 67Ko01 1 -.0 *48Ca(3He,11C)40S Calculated from givenM-A=-22519(35) AHW *48Ca(a,9Be)43Ar Calculated from given M-A=-31980(70) AHW *48Ca(3He,7Be)44Ar Calculated from given M-A=-32270(20) AHW *48Ca(a,7Be)45Ar Calculated from given M-A=-29727(60) AHW *48Ca(6Li,8B)46Ar Calculated from given M-A=-29732(70) AHW *48Ca(14C,16O)46Ar Calculated from given M-A=-29720(50) AHW *47Ti(n,g)48Ti S(n)=11626.5(.1,Is),11626.66(.04,Ru) AHW *48Ca(7Li,7Be)48K Calculated from given M-A=-32117(27) AHW *48Ca(14C,14N)48K Calculated from given M-A=-32150(50) AHW 47Ti 37Cl-49Ti 35Cl 944.46 .35 942.80 0.13 79Ko10 H32 2.5 U -1.9 48Ti 13C-49Ti C 3432.64 .80 3431.06 0.06 79Ko10 H32 2.5 U -.8 48Ca(n,g)49Ca 5146.8 .4 70Cr04,77Cr.A 2 48Ca(p,g)49Sc 9628.9 2. 9627.9 1.9 68Vi01* 1 -.5 48Ti(n,g)49Ti 8142.38 .05 8142.38 0.05 80Is02*83Ru.1 1 .0 48Ti(p,g)49V 6756.8 1.5 6758.2 0.8 72Ki06 1 .9 49K(B-)49Ca 10500 400 82Hu.A 3 49Sc(B-)49Ti 2010 5 2004 4 61Re06 1 -1.3 49Ti(p,n)49V -1383.6 1.0 -1384.2 0.8 64Jo11 OAK 1 -.6 49Fe(2B+)49Cr 20858 160 IMME * 3 *48Ca(p,g)49Sc E(exc)=11563.6(0.4) at 1975(2,Vi) resonance NDS *48Ti(n,g)49Ti S(n)=8142.3(.1,Is),8142.41(.03,Ru) AHW *49Fe(2B+)49Cr From E(T=3/2)=4760(2) in Cr,480(60,Ja) in Mn,0 in V 74Ja10 49Ti 13C-50Ti C 6440.47 .88 6433.78 0.21 79Ko10 H32 2.5 U -3.0 50Cr(p,6He)45V -28686 17 75Mu09* 2 50Cr(3He,6He)47Cr -18365 14 77Mu03* 2 48Ca(t,p)50Ca 3012 15 3016 7 66Hi01 2 .3 3020 10 66Wi11 2 -.4 3012 15 67Bj06 KOP 2 .3 48Ca(3He,p)50Sc 7965 15 69Oh01 2 50Cr(d,a)48V 4928 12 4925 3 67Ha.A KOP - -.2 4923 15 68Do03 - .1 ave 4926 9 average 1 -.1 50Cr(p,t)48Cr -15100 8 -15100 7 71Do18 1 -.1 49Ti(n,g)50Ti 10939.4 .2 10939.42 0.20 80Is02*83Ru.2 1 .1 50Cr(d,t)49Cr -6743.1 2.2 76Jo01 NDM 2 50V(n,p)50Ti 2979 15 2988.8 1.5 81Wa31 U .7 50Cr(3He,t)50Mn -7650.5 .4 77Vo02 2 *50Cr(p,6He)45V Calculated from given M-A=-31876(17),corr.for calibrationAHW *50Cr(3He,6He)47Cr Corrected for calibration AHW *49Ti(n,g)50Ti S(n)=10939.7(.1,Is),10930.20(.04,Ru) AHW 47Ti 37Cl2-51V 35Cl2 1906. 1.8 1902.1 1.6 64Ba03 H18 4.0 1 -.5 49Ti 37Cl-51V 35Cl 956.7 .7 959.3 1.6 64Ba03 H18 4.0 1 .9 48Ca(14C,11C)51Ca -15910 50 80Ma40* 2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 48Ca(a,p)51Sc -5860 20 66Er02 2 50Ti(n,g)51Ti 6372.4 1.4 6372.3 0.9 71Ar39 2 -.1 50Ti(d,p)51Ti 4147.7 1.2 4147.8 0.9 76Jo01 NDM 2 .0 50Ti(p,g)51V 8059 3 8062.6 1.5 70Ma36*70Kl05 1 1.2 50V(n,g)51V 11051.4 .1 78Ro03 2 50Cr(n,g)51Cr 9261.8 .1 9261.80 0.10 80Is02 1 -.0 50Cr(p,g)51Mn 5270.8 .3 5270.81 0.30 72Fo25,74Sc17 1 .0 51Cr(e)51V 756 5 751.4 0.9 55Bi29 - -.9 51V(p,n)51Cr -1534.0 2.0 -1533.8 0.9 59Go68,65Ry01 - .1 -1533.5 1.8 64Jo11 OAK - -.2 -1533.7 1.5 70Kn03 - -.0 51Cr(e)51V ave 751.5 1.0 751.4 0.9 average 1 -.1 *48Ca(14C,11C)51Ca Calculated from given M-A=-35940(50) AHW *50Ti(p,g)51V E(exc)=9397(3),9402(3),9408(3), 70Ma36,70Kl05 *50Ti(p,g)51V at E(resonance)=1366.6,1371.4,1376.9(2,Kl) 70Kl05 52Cr(p,a)49V -2596 10 -2594.9 1.8 66Br06 1 .1 50Ti(t,p)52Ti 5698 10 5699 7 66Wi11 2 .1 5700 10 71Ca19 2 -.1 51V(n,g)52V 7311.2 1.0 70Or05*67Ar08 2 51V(p,g)52Cr 10500. 2.8 10504.5 1.3 74Ro44 1 1.6 52Ca(B-)52Sc 5070 200 * 83Mi.A C 52Sc(B-)52Ti 8020 250 9430# 300# 83Mi.A C 5.6 52Mn(B+)52Cr 4711 4 4711.8 2.1 60Ka20*58Ko57 R .2 52Fe(B+)52Mn 2372 12 56Ar33* 3 *51V(n,g)52V S(n)=7311(2,Ar),7311.2(1.5,Or) AHW *52Mn(B+)52Cr E+=575(4) to 3114.6 level NDS *52Fe(B+)52Mn E+=804(10) to 546.0 level NDS 52Cr(n,g)53Cr 7939.5 .2 7939.53 0.20 80Ko01*80Is02 1 .1 53Cr(p,d)52Cr -5715.76 .12 -5714.95 0.20 80Vo.A C 6.7 52Cr(p,g)53Mn 6561.3 1.7 6561.0 0.9 70Ma25 1 -.2 53Ti(B-)53V 5020 100 77Pa01 3 53Cr(p,n)53Mn -1380.4 1.6 -1378.5 0.9 64Jo11 OAK 1 1.2 53Ni(B+)53Co 13230 180 IMME * 3 *52Cr(n,g)53Cr S(n)=7939.1(.2,Ko),7939.6(.10,Is) AHW *53Ni(B+)53Co From E(T=3/2)=4390(60,Vi) in Co,4256(15) in Fe,0 in Mn 76Vi02 13C 37Cl3-54Fe 35Cl2 23744.5 1.3 23744.5 1.5 83Ba.A H39 2.5 1 -.0 54Fe(p,6He)49Mn -28943 24 75Mu09* 2 54Fe(a,8He)50Fe -50950 60 77Tr05 2 54Fe(p,a)51Mn -3146.9 1.1 -3147.0 1.0 74Jo14 NDM 1 -.1 54Fe(3He,6He)51Fe -18694 15 77Mu03* 2 54Fe(d,a)52Mn 5163.3 2.2 5163.5 1.9 76Jo01 NDM 2 .1 54Cr(d,3He)53V -6879.2 3.1 79Br.B 2 53Cr(n,g)54Cr 9719.0 .1 9719.00 0.10 80Is02 1 -.0 53Cr(p,g)54Mn 7559.6 1.0 75We10 2 54Fe(d,t)53Fe -7121.5 2.1 -7121.3 1.6 74Jo14 NDM 2 .1 54Fe(3He,a)53Fe 7199.6 2.6 7199.2 1.6 74Jo14 NDM 2 -.1 54Cr(t,3He)54V -7023 15 77Fl03 2 54Fe(p,n)54Co -9023.1 1.8 -9023.9 0.6 75Fr.A HAR 2 -.4 54Fe(3He,t)54Co -8260.2 .6 -8260.1 0.6 77Vo02 2 .1 *54Fe(p,6He)49Mn Calculated from given M-A=-37614(24),corr.for calibrationAHW *54Fe(3He,6He)51Fe Corrected for calibration AHW 54Cr(n,g)55Cr 6246.3 .4 72Wh05 2 54Cr(p,g)55Mn 8067.2 .4 8067.2 0.4 78We12 1 -.0 54Fe(n,g)55Fe 9298.0 .1 9298.01 0.10 80Is02 1 .1 54Fe(p,g)55Co 5064.2 .4 5064.2 0.4 77Er02,80Ha36 1 -.0 55V(B-)55Cr 5956 100 77Na17 3 55Mn(p,n)55Fe -1015.4 2. -1014.1 0.7 59Go68 - .7 -1014.2 .8 64Jo11,65Ry01 OAK - .2 ave -1014.4 0.7 average 1 .4 56Fe(p,a)53Mn -1052.3 .8 -1052.7 0.7 74Jo14 NDM 1 -.5 54Cr(t,p)56Cr 5995 30 6021 9 68Ch20 2 .9 6024 10 71Ca19 2 -.3 54Fe(3He,n)56Ni 4513 14 4511 11 67Mi02 2 -.1 55Mn(n,g)56Mn 7270.6 .1 80Is02 2 55Mn(p,g)56Fe 10194 4 10183.9 0.9 70Sa19,69Fr22 1 -2.5 56Fe(d,t)55Fe -4938.3 1.3 -4940.7 0.7 74Jo14 NDM 1 -1.9 56Co(B+)56Fe 4566.1 2.0 65Pe18* 2 *56Co(B+)56Fe E+=1459(2) to 2085.05 level NDS C7 H8-57Fe 35Cl 158378.5 3.5 158351.8 1.6 68Hu05 M18 2.5 1 -3.1 56Fe 13C-57Fe C 2897.67 .47 2898.40 0.11 77Ba10 H30 2.5 U .6 2897.68 .40 77Ba10 H30 2.5 U .7 54Cr(a,p)57Mn -4308 8 -4308 3 76Ma03 NDM R .1 -4302 8 78An10 R -.7 54Fe(a,p)57Co -1770.3 1.8 -1772.4 0.8 74Jo14 NDM 1 -1.1 55Mn(t,p)57Mn 7438.2 3.6 7439 3 77Ma12 NDM 2 .3 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 56Fe(n,g)57Fe 7646.2 .1 7646.20 0.10 76Al16*80Is02 1 .0 56Fe(p,g)57Co 6026.7 .7 6027.5 0.5 70Ob02 1 1.1 6029.3 1.5 71Le21* C -1.2 57Cr(B-)57Mn 5100 100 4800# 200# 78Da04 B -3.0 57Fe(p,n)57Co -1619.3 2.0 -1618.7 0.5 64Jo11 OAK - .3 -1618.2 2.0 70Kn03 - -.3 ave -1618.8 1.4 average 1 .0 57Zn(2B+)57Ni 23470 130 IMME * 3 *56Fe(n,g)57Fe S(n)=7646.27(.17,Al),7646.2(.06,Is),7646.0(.2,Ve) 80Ve05 *56Fe(p,g)57Co No calibration data given 71Le21 *57Zn(2B+)57Ni From E(T=3/2)=5230(10) in Ni,0 in Co,Cu M-A=49250(50) 76Vi02 58Ni(p,6He)53Co -27889 18 75Mu09* 2 58Ni(a,8He)54Ni -50190 50 77Tr05 2 58Ni(p,a)55Co -1335.1 .9 -1335.0 0.7 74Jo14 NDM 1 .1 58Ni(3He,6He)55Ni -17556 11 77Mu03* 2 58Ni(p,t)56Ni -13987 18 -13984 11 65Ho07 R .2 57Fe(n,g)58Fe 10044.7 .1 10044.70 0.10 80Is02 1 .0 57Fe(p,g)58Co 6952 3 6954.4 1.2 70Er03 1 .8 58Ni(3He,a)57Ni 8360.3 4. 8358.7 2.5 76Na23 2 -.4 58Fe(t,3He)58Mn -6300 30 77Fl03 2 58Co(B+)58Fe 2307 4 2308.0 1.2 63Rh02*52Ch31 1 .2 58Ni(p,n)58Cu -9351 5 -9345.0 1.9 64Ma.A 2 1.2 -9347.8 4.0 76Fr13 HAR 2 .7 -9342.5 2.5 69Ov01* 2 -1.0 58Ni(pi+,pi-)58Zn -16998 100 81Se.A 2 *58Ni(p,6He)53Co Calculated from given M-A=-42650(18),corr.for calibrationAHW *58Ni(3He,6He)55Ni Corrected for calibration AHW *58Co(B+)58Fe E+=474(4,Rh),472(6,Ch) to 810.75 level NDS *58Ni(p,n)58Cu T as corrected by ref. 76Fr13,69Ov01 59Co(p,a)56Fe 3240.4 1.4 3241.6 0.6 74Jo14 NDM 1 .9 59Co(d,a)57Fe 8659.3 3.2 8663.3 0.6 74Jo14 NDM 1 1.2 59Ni(p,t)57Ni -12738.2 3.3 -12737.1 2.6 76Na23 R .3 58Fe(n,g)59Fe 6581.0 .2 6580.99 0.20 80Ve05 1 -.0 58Fe(p,g)59Co 7362.5 1.4 7363.3 0.6 74Ke14,75Br29 1 .6 59Co(d,t)58Co -4196.0 1.4 -4196.4 1.1 74Jo14 NDM 1 -.3 58Ni(n,g)59Ni 8999.95 .20 8999.95 0.20 77Wi06,77Is01 1 -.0 58Ni(p,g)59Cu 3417. 1.4 70Ho34,75Kl06 2 58Ni(p,pi-)59Zn -144735 40 -144730 40 83Sh31 R .0 59Mn(B-)59Fe 5200 100 5185 29 77Pa18 2 -.1 59Fe(B-)59Co 1566 3 1564.7 0.6 63Wo01*52Me53 1 -.4 59Ni(e)59Co 1075.1 1.3 1072.9 0.5 76Be02 - -1.7 59Co(p,n)59Ni -1855.7 2.0 -1855.2 0.5 51Mc48,65Ry01 MIT - .3 -1855.5 1.6 64Jo11 OAK - .1 -1854.3 4. 57Bu37,65Ry01 - -.2 59Ni(e)59Co ave 1074.0 0.9 1072.9 0.5 average 1 -1.3 59Zn(B+)59Cu 9120 100 9090 40 81Ar13 3 -.3 *59Fe(B-)59Co From B- to 1099.2,1291.6 levels NDS 60Ni(p,a)57Co -263.6 .7 -264.1 0.6 74Jo14 NDM 1 -.7 58Fe(t,p)60Fe 6913 4 6915 4 78No05 2 .6 60Ni(d,a)58Co 6084.5 2.2 6084.4 1.1 74Jo14 NDM 1 -.0 58Ni(3He,n)60Zn 818 18 820 11 67Mi02 2 .1 821 13 72Gr39 2 -.1 59Co(n,g)60Co 7491.92 .08 7491.93 0.08 83Ko.A 1 .1 59Ni(n,g)60Ni 11387.9 .7 11388.5 0.5 75Wi06 - .8 60Ni(d,t)59Ni -5130.2 2.1 -5131.2 0.5 74Jo14 NDM - -.5 59Ni(n,g)60Ni ave 11387.9 0.7 11388.5 0.5 average 1 .9 60Mn(B-)60Fe 8510 100 78No03 3 60Co(B-)60Ni 2823.62 .11 2823.64 0.11 68Wo02* 1 .1 60Ni(p,n)60Cu -6909.2 2.1 69Ov01* 2 *60Co(B-)60Ni E-=317.88(.10,Wo) to 2505.71 level NDS *60Ni(p,n)60Cu T as corrected by ref. 76Fr13,69Ov01 58Ni(6Li,t)61Zn -4736 23 -4747 16 78Wo01 R -.5 60Ni(n,g)61Ni 7820.10 .20 7820.27 0.19 75Wi06,77Is01 1 .8 61Cu(B+)61Ni 2246 3 2238.4 1.1 67Wa.A - -2.5 61Ni(p,n)61Cu -3023.9 4. -3020.8 1.1 64Jo11 OAK - .8 61Cu(B+)61Ni ave 2244.4 2.4 2238.4 1.1 average 1 -2.5 62Ni(p,a)59Co 343.3 .7 345.0 0.4 74Jo14 NDM - 2.4 59Co(a,p)62Ni -346.5 2.3 -345.0 0.4 74Jo14 NDM - .7 62Ni(p,a)59Co ave 343.6 0.7 345.0 0.4 average 1 2.1 62Ni(18O,20Ne)60Fe 911 20 925 4 83Ha.1* R .7 62Ni(d,a)60Co 5611.2 2.4 5612.3 0.4 74Jo14 NDM 1 .5 61Ni(n,g)62Ni 10595.7 .7 10597.4 0.4 70Fa06,75Wi06 - 2.4 62Ni(d,t)61Ni -4340.6 1.3 -4340.1 0.4 74Jo14 NDM - .4 61Ni(n,g)62Ni ave 10596.2 0.6 10597.4 0.4 average 1 2.0 62Ni(t,3He)62Co -5296 20 -5303 19 76Aj03 2 -.4 -5350 50 72Ba31* 2 .9 62Cu(B+)62Ni 3947 7 3949 5 67An01*64Sa32 2 .3 62Ni(p,n)62Cu -4734.8 10. -4731 5 66Ri09 RIC 2 .3 -4733 10 61Ri02 2 .2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 62Zn(B+)62Cu 1690 8 1627 11 50Ha65*54Nu27 B -7.9 62Ga(B+)62Zn 9171 26 79Da04 3 *62Ni(18O,20Ne)60F Calculated from given M-A=-61396(20) AHW *62Ni(t,3He)62Co Derived from vague data on 64Ni(d,a) AHW *62Cu(B+)62Ni E+=3932(10,Nu),3942(10,Sa),3956(7,An) 54Nu27 *62Zn(B+)62Cu E+=660(10,Ha),675(10,Nu) but 606(10) from 64Zn(p,t) AHW 63Cu(p,a)60Ni 3754.9 1.5 3756.1 0.5 76Jo01 NDM 1 .8 62Ni(n,g)63Ni 6838.45 .20 6838.50 0.20 77Is01 1 .2 63Ni(B-)63Cu 65.87 .15 65.92 0.15 66Hs01 1 .3 63Cu(p,n)63Zn -4146.5 4. -4149.5 1.6 55Br16 RIC - -.8 -4144.5 8. 55Ki28,65Ry01 OAK - -.6 -4150.1 4.4 63Ok01 JAP - .2 ave -4147.7 2.7 average 1 -.7 63Ga(B+)63Zn 5520 100 72Fi.A 2 64Ni(3He,8B)59Mn -19610 30 -19610 29 76Ka24 R -.0 64Ni(3He,7Be)60Fe -6511 10 -6529 4 76St11* R -1.8 64Ni(a,7Be)61Fe -21523 20 77Co08* 2 64Ni(p,a)61Co 663.2 .7 74Jo14 NDM 2 64Zn(p,a)61Cu 844.1 .7 843.6 0.7 76Jo01 NDM 1 -.7 64Zn(3He,6He)61Zn -12331 23 -12320 16 79We02 2 .5 64Ni(18O,20Ne)62Fe -1915 50 -1938 15 76Hi14 2 -.5 -1920 21 77Bh03* 2 -.8 -1947 26 83Ha.1* 2 .4 64Ni(14C,16O)62Fe -501 40 -445 14 81Be40* 2 1.4 64Ni(11B,13N)62Fe -4930 70 -4879 14 77Co08 U .7 64Zn(d,a)62Cu 7508 15 7506 5 67Sp09 MIT R -.1 64Zn(p,t)62Zn -12493 10 72Fa08 2 64Ni(14C,15O)63Fe -11743 60 82De.A* 2 64Ni(t,a)63Co 7266 20 66Bl15 2 63Ni(n,g)64Ni 9656.7 .4 9656.5 0.4 75Wi06 1 -.4 63Cu(n,g)64Cu 7916.09 .12 7916.11 0.12 83De28 1 .2 64Zn(d,t)63Zn -5604.9 1.7 -5604.2 1.5 76Jo01 NDM 1 .4 64Ni(t,3He)64Co -7288 20 72Fl17 2 64Cu(B+)64Ni 1673.4 1.0 1674.5 0.4 83Ch.1 1 1.1 64Cu(B-)64Zn 577.8 1.0 578.2 0.8 83Ch.1 1 .4 64Zn(p,n)64Ga -7951 4 -7947 4 72Da.A 2 1.0 64Zn(3He,t)64Ga -7168 8 -7183 4 74Ro16 2 -1.9 64Ge(B+)64Ga 4410 250 73Da01 3 *64Ni(3He,7Be)60Fe Calculated from given M-A=-61437(10) AHW *64Ni(a,7Be)61Fe Calculated from given M-A=-58920(20) AHW *64Ni(18O,20Ne)62F Q-Q(62Ni(18O,20Ne))=-2843(20,Bh),Q(62)=923(4) AHW *64Ni(18O,20Ne)62F Calculated from given M-A=-5889(26,Ha) AHW *64Ni(14C,16O)62Fe Calculated from given M-A=-58840(40,Be) AHW *64Ni(14C,15O)63Fe Calculated from given M-A=-55190(60,De) AHW 65Cu(p,a)62Ni 4344.6 1.8 4348.8 1.0 76Jo01 NDM 1 2.3 64Ni(n,g)65Ni 6098.22 .20 77Is01 2 64Zn(n,g)65Zn 7979.4 .6 7979.9 0.6 71Ot01,75De.A 1 .8 64Zn(p,g)65Ga 3941.7 1.0 75We24 2 65Ge(ep)64Zn 2300 100 81Ha44 2 65Zn(B+)65Cu 1348.0 1.0 1350.8 0.6 53Ba82*49Ma57 - 2.8 65Cu(p,n)65Zn -2132.2 1.5 -2133.2 0.6 56Ma14,65Ry01 - -.7 -2135.8 2.5 57Be44 - 1.1 -2135.3 1.8 63Ok01 JAP - 1.2 -2135.8 1.7 64Jo11 OAK - 1.6 65Zn(B+)65Cu ave 1350.3 0.7 1350.8 0.6 average 1 .8 *65Zn(B+)65Cu E+=325(2,Ma),325(2,Ba),324(4,Av)320(4,Yu), 56Av28,53Yu04 *65Zn(B+)65Cu 327(3,Sa),325(3,Pe) 53Sa26,53Pe14 66Zn(p,a)63Cu 1544.3 .8 1544.1 0.8 76Jo01 NDM 1 -.3 64Ni(t,p)66Ni 6559 25 6591 16 71Da16 1 1.3 65Cu(n,g)66Cu 7065.97 .11 7065.97 0.11 83De29 1 -.0 66Ni(B-)66Cu 200 30 227 16 56Jo20 1 .9 66Ga(B+)66Zn 5175.0 3.0 63Ca03 2 66Ge(B+)66Ga 2102 13 70De39 3 66As(B+)66Ge 9550 50 79Da.A 4 67Zn N-66Zn 15N 4060.21 .25 4059.4 0.4 77Ba10 H30 2.5 1 -1.3 64Zn(a,n)67Ge -8987.5 12. -8992 5 78Mu05 2 -.4 -8993 5 79Al04 2 .2 66Zn(n,g)67Zn 7052.6 .6 7052.0 0.4 71Ot01,75De.A 1 -1.0 67Cu(B-)67Zn 576 8 53Ea11 2 67Zn(p,n)67Ga -1783.3 1.4 -1783.3 1.3 64Jo11 OAK 1 -.0 67As(B+)67Ge 6010 100 80Mu12 3 68Zn 35Cl-66Zn 37Cl 1757.9 1.0 1761.3 0.7 64Ba03 H18 4.0 1 .8 66Ni(t,p)68Ni 5105 21 5115 17 77Bh03* 1 .5 67Zn(n,g)68Zn 10198.0 .5 10198.1 0.5 71Ot01,70Ba21 1 .3 68Cu(B-)68Zn 4580 50 4450 50 64Ba13,72Sw01 2 -2.6 68Zn(t,3He)68Cu -4410 20 -4430 50 77Sh08 2 -1.0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 68Ga(B+)68Zn 2921.1 1.2 72Sl03 2 68As(e)68Ge 8100 100 77Pa13 2 *66Ni(t,p)68Ni Zn(18O,20Ne) Q(70)-Q(68)=-2110(21),68Zn(t,p) Q=7215(3) AHW C5 H9-69Ga 144852.7 2.4 144846 3 63Ri07 M15 2.5 1 -1.2 69Ga(p,a)66Zn 4440 10 4440.3 2.8 67Ka11 1 .0 68Zn(n,g)69Zn 6482.1 .6 6482.2 0.6 71Ot01,75De.A 1 .2 69Se(ep)68Ge 3390 50 3400 40 76Ha29 1 .1 69Zn(B-)69Ga 897 5 905.5 2.8 53Du03 1 1.7 69Ga(p,n)69Ge -3008.8 3.2 -3007.6 2.5 63Ok01 JAP - .3 -3006.0 4. 64Jo11 OAK - -.4 ave -3007.6 2.5 average 1 .0 69As(B+)69Ge 4020 35 4020 30 70Bo19,77Ma24 1 -.1 69Se(B+)69As 6795 52 6790 40 77Ma24 1 -.1 C5 H10-70Ge 154001.3 2.2 154000.7 1.6 63Ri07 M15 2.5 1 -.1 C4 H6 O-70Ge 117616.1 1.8 117615.2 1.6 63Ri07 M15 2.5 1 -.2 70Zn 35Cl-68Zn 37Cl 3429.5 1.7 3429 3 64Ba03 H18 4.0 1 -.1 70Zn(3He,8B)65Co -18390 50 78Ko24 2 70Zn(a,7Be)67Ni -19155 36 -19161 19 78Co.A 2 -.2 -19164 22 78Ko28 2 .1 70Ge(p,a)67Ga 1180.9 1.5 1181.0 1.3 76Jo01 NDM 1 .0 70Ge(3He,6He)67Ge -10554 30 -10567 5 78Pa11 U -.4 70Zn(18O,20Ne)68Ni 172 26 186 17 83Ha.1* - .5 70Zn(14C,16O)68Ni 1747 40 1679 17 81Be40* - -1.7 70Zn(18O,20Ne)68Ni ave 196 22 186 17 average 1 -.5 70Ge(p,t)68Ge -11251 13 -11244 6 72Hs01* - .5 -11242 7 77Gu02 - -.3 ave -11244 6 average 1 -.0 70Zn(14C,15O)69Ni -8936 200 83Be.C 2 70Zn(d,3He)69Cu -5605 10 -5615 7 78Ze04 2 -1.0 -5622 13 83Ha.1* 2 .5 70Zn(t,a)69Cu 8682 20 8705 7 81Aj02 2 1.2 69Ga(n,g)70Ga 7654.1 1. 7654.1 1.0 71Ar12*71Ve03 1 .0 70Ge(d,3He)69Ga -3030 7 -3034.5 2.9 78Ro14 1 -.6 70Zn(t,3He)70Cu -6559 20 77Sh08 2 70Zn(p,n)70Ga -1436.3 2.0 -1437.1 1.6 59Go68 - -.4 -1439.3 3.0 64Jo11 OAK - .7 ave -1437.2 1.6 average 1 .1 70Ga(B-)70Ge 1650 10 1656 3 57Bu41 1 .6 70As(B+)70Ge 6222 20 63Bo14 2 70Se(B+)70As 2750 200 75La02* 3 70Br(B+)70Se 9970 170 10400# 300# 79Da.A B 2.5 *70Zn(18O,20Ne)68N Calculated from given M-A=-63472(26) AHW *70Zn(14C,16O)68Ni Calculated from given M-A=-63550(40) AHW *70Ge(p,t)68Ge Calculated from given M-A=-66969(13) AHW *70Zn(d,3He)69Cu Calculated from given M-A=-65734(13) AHW *69Ga(n,g)70Ga S(n)=7653(1.5,Or),7655.1(.8,Ar),7651(1,Ve) 70Or05 *69Ga(n,g)70Ga S(n,Ve) for 72Ga low too AHW *70Se(B+)70As E+=1500(200) assumed to 81.6 and 458.2 levels NDS C5 H11-71Ga 161370.2 3.2 161374.8 2.4 63Ri07 M15 2.5 1 .6 70Zn(d,p)71Zn 3609 10 67Vo05 2 70Ge(n,g)71Ge 7415.9 1.1 7415.7 1.1 72Gr34,70Or05 1 -.2 70Ge(p,g)71As 4619 5 4621 4 75Li14 1 .4 71Ge(e)71Ga 233 3 235.7 1.6 54La38,55Bi96 - .9 71Ga(p,n)71Ge -1019.5 2.0 -1018.0 1.6 64Jo11 OAK - .8 71Ge(e)71Ga ave 235.9 1.6 235.7 1.6 average 1 -.2 71As(B+)71Ge 2009 7 2013 4 55Gr08*54Th36 1 .5 71Se(B+)71As 4428 125 4800# 200# 73Sc17 B 3.0 *71As(B+)71Ge E+=813(10,Th),800(20,St),815(10,Gr) to 174.9 level 53St31,NDS C4 H8 O-72Ge 135438.4 2.1 135436.1 1.6 63Ri07 M15 2.5 1 -.4 70Ge H2-72Ge 17821.3 1.7 17820.9 1.4 63Ri07 M15 2.5 1 -.1 72Ge 35Cl-70Ge 37Cl 779.82 .70 779.3 1.4 83Ba.A H40 2.5 1 -.3 70Zn(t,p)72Zn 6231 20 6235 7 72Hu06 R .2 71Ga(n,g)72Ga 6521 1 6521.1 1.0 71Ve03*70Li04 1 .1 72Ge(d,3He)71Ga -4241 7 -4237.6 2.1 78Ro14 1 .5 72Zn(B-)72Ga 457 6 457 6 63Th03,63De11 2 .0 72Ga(B-)72Ge 3987 10 3992.4 2.3 55Jo09*60La04 1 .5 72As(B+)72Ge 4351 7 4355 4 50Me55,68Vi05 2 .6 72Ge(p,n)72As -5140 5 -5138 4 76Ki12 2 .5 72Kr(B+)72Br 5057 135 73Sc17 4 *71Ga(n,g)72Ga S(n)=6521(1,Li),6521.5(1.5,Or),6519(1,Ve) 70Or05 *72Ga(B-)72Ge E-=3150(10,La),3166(20,Jo) to 834.08 level NDS C4 H9 O-73Ge 141878.4 2.1 141877.3 1.6 63Ri07 M15 2.5 1 -.2 72Ge H-73Ge 6443.9 1.3 6441.3 1.0 63Ri07 M15 2.5 1 -.8 72Ge(n,g)73Ge 6782.2 1.3 6782.4 0.9 72Ha74,72Gr34 1 .2 72Ge(3He,d)73As 160 4 167 3 76Sc13 1 1.8 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 73Kr(ep)72Se 3700 150 3720 140 81Ha44 1 .1 73Ge(p,n)73As -1121.5 15. -1122 4 64Jo11* OAK 1 -.0 73Se(B+)73As 2740 10 2740 10 56Ha10 1 -.0 73Br(B+)73Se 4640 300 4580 250 70Mu02,74Ro11 1 -.2 73Kr(B+)73Br 6880 450 6740 270 73Sc17* 1 -.3 *73Ge(p,n)73As T=1205 (15,Jo) to 66.9 level NDS *73Kr(B+)73Br E+=5589(350) to 178,320,392 levels AHW...,NDS C 32S2-74Ge H2 7314.0 1.4 7313.9 1.6 63Ri07 M15 2.5 1 -.0 C6 H2-74Se 93173.8 3.8 93175.5 1.6 63Ri07 M15 2.5 1 .2 74Ge 35Cl-72Ge 37Cl 2047.5 1.1 2048.6 1.0 64Ba03 H18 4.0 1 .3 2047.74 .71 83Ba.A H40 2.5 1 .5 74Se 35Cl-72Ge 37Cl 3347.90 1.73 3345.8 1.3 83Ba.A H40 2.5 1 -.5 73Ge H-74Ge 10105.1 1.7 10110.2 0.6 63Ri07 M15 2.5 1 1.2 74Se-74Ge 1298.50 .55 1297.2 0.9 83Ba.A H40 2.5 1 -1.0 1298.67 1.31 83Ba.A H40 2.5 1 -.5 74Se(p,t)72Se -11979 12 -11979 12 74De31 1 -.0 74Ge(d,3He)73Ga -5515 7 -5514 6 78Ro14 2 .2 -5509 13 83Ha.1* 2 -.4 73Ge(n,g)74Ge 10200.2 .6 10200.0 0.6 74Ch18,70Ha60 1 -.3 74Se(d,3He)73As -3027 8 -3055 4 83Ro.1* 1 -3.5 74Zn(B-)74Ga 2350 100 2350 70 72Er05* R -.0 74Ga(B-)74Ge 5400 100 5370 70 62Ei02* 2 -.3 74As(B+)74Ge 2558 4 2562.2 1.7 71Bo01* - 1.1 74Ge(p,n)74As -3348.2 5. -3344.6 1.7 64Jo11 OAK - .8 -3343.5 5.6 63Ok01 JAP - -.2 -3346 5 70Fi03 - .3 -3347 3 73Ki11 - .8 74As(B+)74Ge ave 2562.9 1.9 2562.2 1.7 average 1 -.3 74As(B-)74Se 1351 4 1353.9 1.8 71Bo01* 1 .7 74Se(p,n)74Br -7699.7 15. -7697 15 75Lu02 1 .2 74Kr(B+)74Br 3280 100 3160 60 74Ro11*75Sc07 1 -1.2 74Rb(B+)74Kr 10000 1500 10390 470 76Da.D U .3 *74Ge(d,3He)73Ga Calculated from given M-A=-69709(13) AHW *74Se(d,3He)73As Original value -3033(8) recalibrated AHW *74Zn(B-)74Ga E-=2100(100) to 250.0 level NDS *74Ga(B-)74Ge E-=2450(100) to 2949.3 level NDS *74As(B+)74Ge Original error 1.0,increased,see 84Rb(B+) AHW *74As(B-)74Se Original error 0.7,increased,see 84Rb(B-) AHW *74Kr(B+)74Br Q+=300(200,Ro),3327(125,Sc) AHW C3 H7 O2-75As 123009.8 2.6 123010.3 1.7 63Ri07 M15 2.5 1 .1 75As 35Cl-73Ge 37Cl 1079.59 2.27 1081.7 1.3 83Ba.A H40 2.5 1 .4 74Ge(n,g)75Ge 6505.5 1.6 72Ha74,72Gr34 2 74Ge(p,g)75As 6901.6 5. 6900.8 1.1 74Wa08 - -.2 74Ge(3He,d)75As 1414 4 1407.3 1.1 76Sc13 - -1.7 74Ge(p,g)75As ave 6905 3 6900.8 1.1 average 1 -1.4 74Se(n,g)75Se 8027.6 .1 8027.62 0.10 81En07*82To.A 1 .2 75Zn(B-)75Ga 5620 200 5770 150 77Al17* F .7 75As(p,n)75Se -1646.8 2.0 -1646.2 0.8 59Go68 - .3 -1647.3 1.1 64Jo11 OAK - 1.0 ave -1647.2 1.0 average 1 1.1 75Br(B+)75Se 3010 20 61Ba43*52Fu04 2 75Kr(B+)75Br 4400 200 4915 28 74Ro12 F 2.6 *74Se(n,g)75Se S(n)=8027.5(.4,En),8027.603(.082,To) AHW *75Zn(B-)75Ga Lower limit 77Al17 *75Br(B+)75Se E+=1720(50,Ba),1700(20,Fu) to 286.5 level NDS C 32S2-76Ge 22741.6 1.5 22739.8 1.7 63Ri07 M15 2.5 1 -.5 C6 H4-76Se 112100 8 112088.2 1.6 63Ri07 M15 2.5 1 -.6 74Ge H2-76Ge 15425.0 1.7 15425.9 1.1 63Ri07 M15 2.5 1 .2 76Ge 35Cl-74Ge 37Cl 3175.7 1.5 3174.3 1.1 64Ba03 H18 4.0 1 -.2 3170.41 .74 83Ba.A H40 2.5 1 2.1 76Ge-76Se 2190.92 .59 2189.6 1.0 83Ba.A H40 2.5 1 -.9 75Rb-76Rb.493 74Rb.507 -1140 170 -1180 220 82Au01 P2 1.5 1 -.1 76Ge(14C,17O)73Zn -3974 40 83Be.A* 2 76Ge(18O,20Ne)74Zn -1219 21 -1243 19 83Ha.1* 2 -1.1 76Ge(14C,16O)74Zn 163 40 250 19 83Be.A* 2 2.2 76Ge(14C,15O)75Zn -10354 150 83Be.C 2 76Ge(d,3He)75Ga -6545 7 -6544 7 78Ro14 2 .1 -6536 22 83Ha.1* 2 -.4 75As(n,g)76As 7328.5 1.0 7326.9 0.9 70Or05,68Jo11 1 -1.6 75As(d,p)76As 5105 5 5102.3 0.9 76Mo32 U -.5 75Se(n,g)76Se 11154.0 .3 11154.25 0.29 82To.A 1 .8 76Zn(B-)76Ga 3980 120 77Al17 3 76Ga(B-)76Ge 6770 150 77Al17 2 76Ge(p,n)76As -1705 5 -1706.2 1.4 70Fi03 1 -.2 76As(B-)76Se 2970 2 2963.5 1.1 69Na11 1 -3.3 76Se(p,n)76Br -5738.6 15. -5734 11 75Lu02 2 .3 76Br(n,p)76Se 5730 15 5734 11 78An14 2 .3 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 76Rb(B+)76Kr 8063 44 8390 70 82Mo10 B 7.3 *76Ge(14C,17O)73Zn Calculated from given M-A=-65410(40) AHW *76Ge(18O,20Ne)74Z Calculated from given M-A=-65735(21,Ha) AHW *76Ge(14C,16O)74Zn Calculated from given M-A=-65620(40,Be) AHW *76Ge(d,3He)75Ga Calculated from given M-A=-68473(22,Ha) AHW C6 H5-77Se 119211.9 4.2 119212.7 1.6 63Ri07 M15 2.5 1 .1 75Rb-77Rb.325 74Rb.676 -1340 400 -1190 300 82Au01 P2 1.5 1 .3 76Rb-77Rb.494 75Rb.507 525 30 540 30 82Au01 P2 1.5 1 .4 76Ge(n,g)77Ge 6072.2 1.0 72Ha74,72Gr34 2 76Ge(3He,d)77As 2497 3 2499.4 1.8 76Sc13 1 .8 76Se(n,g)77Se 7418.8 .2 7418.82 0.20 81En07 1 .1 77Sr(ep)76Kr 3850 200 3790 150 76Ha29 3 -.3 77Zn(B-)77Ga 6910 220 7500# 200# 77Al17* F 2.7 77Ga(B-)77Ge 5340 60 4800# 200# 77Al17 B -9.0 77As(B-)77Se 679 4 683.1 1.8 51Je01 1 1.0 77Se(p,n)77Br -2147 4 -2147.1 2.8 58Jo01 - -.0 -2147.0 4. 63Ok01 JAP - -.0 ave -2147.0 2.8 average 1 -.0 77Kr(B+)77Br 3000 30 3010 29 55Th01*73Ba22 1 .3 2760 42 82Mo10 B 5.9 3300 100 74Ro11 B -2.9 77Rb(B+)77Kr 5272 26 5279 25 82Mo10 1 .3 77Sr(B+)77Rb 6986 227 7060 160 83Li.1 R .3 *77Zn(B-)77Ga Possibly lower limit 77Al17 *77Kr(B+)77Br Q+=3000(50,Th,reinterpreted),3010(40,Ba) AHW C6 H6-78Se 129642.6 2.2 129642.6 1.6 63Ri07 M15 2.5 1 .0 C6 H6-78Kr 126548.3 3.6 126554 9 63Ri07 M15 2.5 1 .7 126554 17 81De.A R11 2.5 U .0 126560 7 81De.A R11 2.5 U -.3 C5 N H4-78Kr 113994 20 113978 9 81De.A R11 2.5 U -.3 78Se 35Cl-76Ge 37Cl -1147.60 .92 -1143.9 1.0 83Ba.A H40 2.5 1 1.6 78Se 35Cl-76Se 37Cl 1042.03 1.35 1045.7 0.4 83Ba.A H40 2.5 U 1.1 76Se H2-78Kr 14440 25 14466 9 81De.A R11 2.5 U .4 77Se H-78Kr 7367 26 7342 9 81De.A R11 2.5 U -.4 78Kr-78Se 3074 16 3088 9 81De.A R11 2.5 U .4 3098 20 81De.A R11 2.5 U -.2 78Se H-78Kr 4724 33 4737 9 81De.A R11 2.5 U .2 76Rb-78Rbx.325 75Rb.676 -130 40 -110 40 82Au01 P2 1.5 1 .3 77Rb-78Rbx.494 76Rb.507 -1192 19 -1174 21 82Au01 P2 1.5 1 .6 78Kr(a,8He)74Kr -41120 70 -41180 60 82Mo23 1 -.9 78Se(p,a)75As 870.9 2.3 871.1 0.9 82Zu04 1 .1 78Kr(3He,6He)75Kr -12566 18 83Mo.A 2 76Ge(t,p)78Ge 6310 5 6309 3 78Ar12 - -.2 6310 5 81St18 - -.2 ave 6310 4 average 1 -.2 78Se(p,t)76Se -9433.7 4.3 -9434.8 0.4 82Zu04 U -.3 78Kr(p,t)76Kr -12840 15 -12843 8 81Ma30 2 -.2 78Kr(a,6He)76Kr -20351 10 -20349 8 82Mo23 2 .2 78Se(d,3He)77As -4904 4 -4905.1 1.7 83Ro.1* 1 -.3 77Se(n,g)78Se 10497.8 .3 10497.87 0.29 81En07 1 .2 78Se(p,d)77Se -8271.9 4.0 -8273.29 0.29 82Zu04 U -.3 78Zn(B-)78Ga 6010 180 5600# 200# 77Al17 B -2.3 78Ga(B-)78Ge 7890 160 8300# 200# 77Al17* B 2.6 78Ge(B-)78As 980 20 953 11 65Kv01,65Fr04 1 -1.3 78Se(p,n)78Br -4344 10 -4356 4 61Ri02 2 -1.2 -4370 10 61Sc11 2 1.4 -4355.5 7.4 63Ok01 JAP 2 -.1 -4356 5 70Fi03 2 -.0 78Rb(B+)78Kr 7240 50 7170 30 81Ba40 1 -1.4 78Rbm(it)78Rb 103.4 .1 72De54 2 78Rbx(it)78Rb 69 12 65 12 82Au01 1 -.3 *78Se(d,3He)77As Original value -4910(4) recalibrated AHW *78Ga(B-)78Ge Original value 8140 reinterpreted by ref. 80Le22 C6 H7-79Br 136444.3 2.4 136439.1 2.6 63Ri07 M15 2.5 1 -.9 136444 15 81De.A R11 2.5 U -.1 136449 12 81De.A R11 2.5 U -.3 C5 13C H6-79Br 131976 16 131968.9 2.6 81De.A R11 2.5 U -.2 131974 17 81De.A R11 2.5 U -.1 C5 N H5-79Br 123870 7 123863.0 2.6 81De.A R11 2.5 U -.4 123871 14 81De.A R11 2.5 U -.2 C5 O H3-79Br 100061 15 100053.6 2.6 81De.A R11 2.5 U -.2 100057 20 81De.A R11 2.5 U -.1 C4 N O H-79Br 87489 20 87477.5 2.6 81De.A R11 2.5 U -.2 77Se H2-79Br 17239 8 17226.4 2.3 81De.A R11 2.5 U -.6 78Se H-79Br 6806 8 6796.5 2.3 81De.A R11 2.5 U -.5 79Br-78Kr -2072 30 -2060 9 81De.A R11 2.5 U .2 77Rb-79Rb.487 75Rb.513 -1010 40 -1060 40 82Au01 P2 1.5 1 -.9 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 77Rb-79Rb.325 76Rb.675 -1060 40 -1032 28 82Au01 P2 1.5 1 .5 -990 70 82Au01 P2 1.5 1 -.4 78Rbx-79Rb.494 77Rb.506 940 40 939 29 82Au01 P2 1.5 1 -.0 78Se(n,g)79Se 6962.4 .5 81En07*AHW 2 78Kr(d,p)79Kr 5980 50 6137 10 56Bl10 1 3.1 79Ga(B-)79Ge 6770 80 77Al17 4 79Ge(B-)79As 4110 100 70Ka04,81Al20 3 79Kr(B+)79Br 1626 6 1628 6 64Bo25*54Th39 1 .4 79Rb(B+)79Kr 3580 100 3604 28 71Li02*72Br31 1 .2 79Sr(B+)79Rb 5059 67 5500# 200# 82De36 B 6.6 5260 80 81Li12 B 3.0 *78Se(n,g)79Se From gamma's to 95.7,527.5,1088.5 levels NDS *79Kr(B+)79Br E+=590(10,Be),598(5,Th),613(5,Be) 52Be55 *79Rb(B+)79Kr Q+=3530(50,Li),3730(80,Br) AHW C6 H8-80Se 146068.5 2.9 146080.7 1.9 63Ri07 M15 2.5 1 1.7 C6 H8-80Kr 146225.7 4.6 146220 9 63Ri07 M15 2.5 1 -.5 146235 18 81De.A R11 2.5 U -.3 146215 16 81De.A R11 2.5 U .1 C5 O H4-80Kr 109834 20 109834 9 81De.A R11 2.5 U .0 80Se 35Cl-78Se 37Cl 2164.8 1.4 2162.2 1.3 64Ba03 H18 4.0 1 -.5 2160.83 .87 83Ba.A H40 2.5 1 .6 80Kr-79Br -1955 28 -1956 9 81De.A R11 2.5 U -.0 80Kr-78Kr -4046 30 -4016 13 81De.A R11 2.5 U .4 79Rb-80Rb.658 77Rb.342 -1218 27 -1135 24 82Au01 P2 1.5 1 2.0 79Rb-80Rb.494 78Rbx.506 -1313 24 -1323 18 82Au01 P2 1.5 1 -.3 80Se(p,a)77As 1020.0 2.8 1020.5 1.9 82Zu04 1 .2 80Se(d,a)78As 5755 12 5765 10 77Mo13 1 .8 80Se(p,t)78Se -8395.1 3.0 -8394.9 1.2 82Zu04 - .1 -8392.7 3.0 R080Se 79Se - -.7 ave -8393.9 2.1 average 1 -.5 78Kr(3He,n)80Sr 2900 30 79Al19 2 80Se(d,3He)79As -5921 13 -5919 5 83Wi.1 2 .2 -5921 7 83Ro.1* 2 .3 80Se(t,a)79As 8407 10 8402 5 83Mo.1 2 -.5 80Se(p,d)79Se -7687.6 3.0 -7689.7 1.3 82Zu04 R -.7 79Br(n,g)80Br 7892.35 .20 7892.35 0.20 78Do06 1 -.0 80Ga(B-)80Ge 10000 300 81Al20 2 80Ge(B-)80As 2640 70 2780 40 77Al17 1 2.0 80Se(t,3He)80As -5560 25 -5578 24 79Aj02 1 -.7 80Se(p,n)80Br -2655.2 2.8 -2653.4 1.8 63Ok01 JAP - .6 -2652.5 3.0 64Jo11 OAK - -.3 -2653.2 5. 70Fi03 - -.0 ave -2653.8 1.9 average 1 .2 80Br(B-)80Kr 2020 30 2001 9 52Fu04*54Li19 1 -.6 80Kr(p,n)80Rb -6484.0 20. -6501 18 71Ja.A 1 -.8 80Y(B+)80Sr 6950 150 9000# 400# 81Li12,82De36 F 13.7 *80Se(d,3He)79As Original value -5927(7) recalibrated AHW *80Br(B-)80Kr Q-=1997(10,Ka),2040(20,Li),1970(30,Fu), 69Ka07 *80Br(B-)80Kr 1990(10) or 2110(10,La),value of Ka for B+ low too 56La25,AHW C6 H9-81Br 154135.3 3.8 154137 6 63Ri07 M15 2.5 1 .2 154143 17 81De.A R11 2.5 U -.1 154134 10 81De.A R11 2.5 U .1 C5 N H7-81Br 141561 10 141561 6 81De.A R11 2.5 U -.0 141553 18 81De.A R11 2.5 U .2 C5 O H5-81Br 117742 12 117751 6 81De.A R11 2.5 U .3 C4 O2 H-81Br 81356 20 81366 6 81De.A R11 2.5 U .2 C4 13C O H4-81Br 113275 14 113281 6 81De.A R11 2.5 U .2 80Se H-81Br 8023 8 8056 6 81De.A R11 2.5 U 1.7 80Kr H-81Br 7922 18 7917 10 81De.A R11 2.5 U -.1 81Br-H 79Br -9865 13 -9873 6 63Ri07 M15 2.5 1 -.2 81Br-80Kr -91 32 -92 10 81De.A R11 2.5 U -.0 81Br-79Br -2020 32 -2048 6 81De.A R11 2.5 U -.3 -2014 35 81De.A R11 2.5 U -.4 79Rb-81Rbx.325 78Rbx.675 -1130 30 -1150 21 82Au01 P2 1.5 1 -.4 80Rb-81Rbx.494 79Rb.506 927 29 937 20 82Au01 P2 1.5 1 .2 80Se(n,g)81Se 6701.1 .6 81En07 2 80Se(d,p)81Se 4477.5 3.0 4476.5 0.6 82Zu04 U -.3 81Br(g,n)80Br -10130 35 -10158 6 60Ge01 PEN 1 -.8 80Kr(d,p)81Kr 5657 15 5651 9 75Ch11,76Me08 1 -.4 81Ga(B-)81Ge 8320 150 81Al20 4 81Ge(B-)81As 6230 120 81Al20 3 81Br(3He,t)81Kr -299.5 1.5 -299.4 1.5 82Ko06 1 .1 81Rb(B+)81Kr 2270 30 2236 22 75Va24,77Li14 1 -1.1 81Rbm(it)81Rb 85 2 56Do.A 2 81Rbx(it)81Rb 42 25 21 21 82Au01 1 -.8 81Rby(it)81Rb 42 25 39 23 82Au01 1 -.1 81Sr(B+)81Rb 3990 30 73Br32 2 81Y(B+)81Sr 5410 90 5520 60 81Li12 3 1.2 5620 89 82De36 3 -1.2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 81Zr(B+)81Y 7160 290 82De36 4 C6 H10-82Se 161545.0 4.6 161552.5 2.3 63Ri07 M15 2.5 1 .7 C6 H10-82Kr 164769.8 3.4 164768 6 63Ri07 M15 2.5 1 -.2 164787 14 81De.A R11 2.5 U -.5 164784 16 81De.A R11 2.5 U -.4 C5 N H8-82Kr 152200 25 152192 6 81De.A R11 2.5 U -.1 C5 O H6-82Kr 128396 20 128383 6 81De.A R11 2.5 U -.3 82Se 35Cl-80Se 37Cl 3128.92 .63 3128.3 1.3 83Ba.A H40 2.5 1 -.4 80Se H2-82Kr 18665 18 18688 6 81De.A R11 2.5 U .5 18671 19 81De.A R11 2.5 U .3 81Br H-82Se 7419 8 7416 6 81De.A R11 2.5 U -.2 81Br H-82Kr 10662 20 10631.4 1.6 81De.A R11 2.5 U -.6 82Se-82Kr 3222 16 3216 6 81De.A R11 2.5 U -.2 3218 22 81De.A R11 2.5 U -.0 82Kr-78Se H3 -27269 35 -27301 6 81De.A R11 2.5 U -.4 80Se H3-82Kr 26466 32 26513 6 81De.A R11 2.5 U .6 82Kr-81Br -2805 32 -2806.4 1.6 81De.A R11 2.5 U -.0 82Se H-82Kr 11082 40 11041 6 81De.A R11 2.5 U -.4 79Rb-82Rbx.241 78Rbx.760 -1536 29 -1626 22 82Au01 P2 1.5 1 -2.1 81Rbx-82Rbx.741 78Rbx.260 -1680 40 -1609 26 82Au01 P2 1.5 1 1.2 80Rb-82Rbx.325 79Rb.675 440 40 392 20 82Au01 P2 1.5 1 -.8 82Se(18O,20Ne)80Ge -2001 40 -1950 30 83Ha.1* - 1.3 82Se(14C,16O)80Ge -449 60 -460 30 83Be.A* - -.1 82Se(18O,20Ne)80Ge ave -1980 30 -1950 30 average 1 1.0 82Se(p,t)80Se -7496.1 3.0 -7494.9 1.2 82Zu04 - .4 -7495.6 2.9 R082Se 81Se - .2 ave -7495.8 2.1 average 1 .5 82Se(d,3He)81As -6861 18 -6856 5 83Wi.1 U .3 -6864 10 83Ro.1* 2 .8 82Se(t,a)81As 7467 6 7464 5 82Mo04 2 -.5 82Se(p,d)81Se -7051.8 2.8 -7051.1 1.3 82Zu04 R .3 81Br(n,g)82Br 7593.04 .20 7593.04 0.20 78Do06 1 -.0 82Ge(B-)82As 4700 140 81Al20 3 82Se(t,3He)82As -7500 25 79Aj02 2 82Br(B-)82Kr 3092.5 1.5 3092.5 1.5 56Wa24* 1 -.0 82Rb(B+)82Kr 4370 60 4390 17 69Be74 - .3 82Kr(p,n)82Rb -5161 20 -5172 17 71Ja.A - -.5 82Rb(B+)82Kr ave 4378 19 4390 17 average 1 .6 82Rbm(it)82Rb 82 23 58Be.A 2 82Rbx(it)82Rb 41 26 46 22 82Au01 1 .2 82Rby(it)82Rb 41 26 58 22 82Au01 1 .7 82Y(B+)82Sr 7820 90 82De36*81Li12 3 82Zr(B+)82Y 4000 500 82De36 4 *82Se(18O,20Ne)80G Calculated from given M-A=-69380(60) AHW *82Se(14C,16O)80Ge Calculated from given M-A=-69325(40) AHW *82Se(d,3He)81As Original value -6870(10) recalibrated AHW *82Br(B-)82Kr E-=444(1) to 2648.3 level NDS *82Y(B+)82Sr Q+=7793(123,De),7870(190,Li) AHW C6 H11-83Kr 171946.8 3.4 171940 4 63Ri07 M15 2.5 1 -.7 171948 16 81De.A R11 2.5 U -.2 C5 N H9-83Kr 159344 25 159364 4 81De.A R11 2.5 U .3 159360 19 81De.A R11 2.5 U .1 C5 O H7-83Kr 135543 25 135555 4 81De.A R11 2.5 U .2 80Se H3-83Kr 25825 25 25860 4 81De.A R11 2.5 U .6 82Se H-83Kr 10380 18 10388 4 81De.A R11 2.5 U .2 10368 16 81De.A R11 2.5 U .5 82Kr H-83Kr 7160 18 7172 7 81De.A R11 2.5 U .3 83Kr-80Se H2 -18022 36 -18035 4 81De.A R11 2.5 U -.1 83Kr-82Se -2572 35 -2563 4 81De.A R11 2.5 U .1 83Kr-82Kr 648 12 653 7 63Ri07 M15 2.5 1 .2 81Rbx-83Rb.488 79Rb.513 -529 26 -527 23 82Au01 P2 1.5 1 .1 81Rbx-83Rb.325 80Rb.675 -1054 27 -1034 21 82Au01 P2 1.5 1 .5 82Rbx-83Rb.659 80Rb.342 627 24 617 24 82Au01 P2 1.5 1 -.3 82Rby-83Rb.494 81Rby.506 1098 23 1067 25 82Au01 P2 1.5 1 -.9 82Se(d,p)83Se 3593.4 3.0 78Mo12 2 82Se(3He,d)83Br 3207.4 5.6 3210 4 83Zu01 1 .5 83Zr(ep)82Sr 2750 100 2350 100 83Ha06 C -4.0 83As(B-)83Se 5460 220 77Al17 3 83Br(B-)83Kr 970 6 973 5 63Pa09*51Du03 1 .5 83Sr(B+)83Rb 2250 10 2256 10 68Et01 1 .6 83Y(B+)83Sr 4411 53 82De36 2 83Yxm(B+)83Sr 4620 50 82De36*81Li12 2 83Zrm(B+)83Y 6950 110 82De36 3 83Zr(B+)83Yxm 5806 85 82De36 3 *83Br(B-)83Kr E-=940(10,Du),924(6,Ph),925(15,Pa) to 41.56 isomer 69Ph03,NDS *83Yxm(B+)83Sr Q+=4610(60,Li),4644(84,De) AHW C6 H12-84Kr 182399.4 2.5 182393 4 63Ri07 M15 2.5 1 -1.0 182392 6 81De.A R11 2.5 U .1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S C5 N H10-84Kr 169819 18 169817 4 81De.A R11 2.5 U -.0 169819 13 81De.A R11 2.5 U -.1 C5 O H8-84Kr 146010 20 146008 4 81De.A R11 2.5 U -.0 C4 13C O H7-84Kr 141543 18 141538 4 81De.A R11 2.5 U -.1 C6 H12-84Sr 180470.8 2.6 180470 4 63Ri07 M15 2.5 1 -.0 82Se H2-84Kr 20834 16 20841 4 81De.A R11 2.5 U .2 83Kr H-84Kr 10465 16 10452.8 2.1 81De.A R11 2.5 U -.3 84Kr-80Se H3 -28505 48 -28488 4 81De.A R11 2.5 U .1 84Kr-83Kr -2646 30 -2627.8 2.1 81De.A R11 2.5 U .2 82Se(t,p)84Se 6016 15 6017 15 74Kn02 1 .1 84Sr(p,t)82Sr -12310 10 -12304 8 73Ba56 2 .6 -12295 12 74De31 2 -.7 83Kr(n,g)84Kr 10519.2 2.0 10519.1 1.9 72Ma42 1 -.0 84Sr(d,t)83Sr -5719 30 -5666 21 70Be24* 1 1.8 84Se(B-)84Br 1816 50 1826 28 68Re12,70Ei02 1 .2 84Br(B-)84Kr 4650 30 4653 26 51Du03,70Ha21 1 .1 84Rb(B+)84Kr 2683 4 2685 3 64La03*71Bo01 1 .6 84Rbm(it)84Rb 464.5 .4 70Pa09 2 84Rbx(it)84Rb 230 60 340 40 82Au01 1 1.8 84Rb(B-)84Sr 892 4 894 3 71Bo01* 1 .6 84Y(B+)84Sr 6410 170 82De36 2 84Yxm(B+)84Sr 6480 100 82De36*81Li.A 2 *84Sr(d,t)83Sr Q-=5755(30) to 35.6 level 75Ko.A *84Rb(B+)84Kr E+=2679(3,La),2689.8(.8,Bo0+),2683.2(1.3,Bo2+), AHW *84Rb(B+)84Kr Error increased:B+0-B+2=876.3(1.5),E(exc)=881.6 NDS *84Rb(B-)84Sr 0riginal error 2 increased,see 84Rb(B+) AHW *84Yxm(B+)84Sr Q+=6475(124,De),6500(140,Li) AHW C6 H13-85Rb 189927.6 3.9 189932 3 63Ri07 M15 2.5 1 .4 189930 15 81De.A R11 2.5 U .1 C4 N O H7-85Rb 140985 18 140970 3 81De.A R11 2.5 U -.3 84Kr H-85Rb 7515 18 7539 4 81De.A R11 2.5 U .5 85Rb-83Kr H -10211 45 -10166 4 81De.A R11 2.5 U .4 85Rb-84Kr 300 32 286 4 81De.A R11 2.5 U -.2 83Rb-85Rb.488 81Rby.512 -351 22 -332 22 82Au01 P2 1.5 1 .6 84Kr(d,p)85Kr 4895 8 4893 4 63Ho.A 1 -.3 85Rb(p,d)84Rb -8275 6 -8265 4 78Sh11 1 1.6 84Sr(d,p)85Sr 6303 8 6306 4 71Mo02 1 .4 85Se(B-)85Br 6190 100 78Be51 3 85Br(B-)85Kr 2870 19 79Al05 2 85Kr(B-)85Rb 687.5 2.0 687.4 2.0 70Wo08 1 -.1 85Rb(3He,t)85Sr -1083 3 -1083.8 2.8 82Ko06 1 -.3 85Y(B+)85Sr 3260 10 63Do07 2 85Zr(B+)85Y 4693 100 82De36 3 C6 H14-86Kr 198936.7 2.7 198935 5 63Ri07 M15 2.5 1 -.3 198933 15 81De.A R11 2.5 U .0 C5 N H12-86Kr 186366 20 186359 5 81De.A R11 2.5 U -.1 C6 H14-86Sr 200264.9 3.6 200283.3 2.8 63Ri07 M15 2.5 1 2.0 86Kr-85Rb -1206 42 -1178 6 81De.A R11 2.5 U .3 86Kr-84Kr -908 32 -891 6 81De.A R11 2.5 U .2 86Sr(p,t)84Sr -11535 10 -11538 4 73Ba56 1 -.3 85Rb(n,g)86Rb 8650.5 1. 8650.3 1.0 70Or05,69Da15 1 -.2 86Se(B-)86Br 5100 120 78Be51 3 86Br(B-)86Kr 7620 60 79Al05 2 86Rb(B-)86Sr 1775 2 1774.3 1.9 75Be21*75Ra09 1 -.3 86Y(B+)86Sr 5240 20 62Ya01,65Va02 2 86Nb(B+)86Zr 7978 80 8400# 360# 82De43 F 5.3 *86Rb(B-)86Sr Q-=1775(3,Ra),1779.2(2.5,Be),1770(3,An),1774(5,Da) 64Da16,66An10 C4 H7 O2-87Rb 135417.8 2.7 135417 3 63Ri07 M15 2.5 1 -.1 C5 13C H14-87Rb 203767 15 203718 3 81De.A R11 2.5 U -1.3 C4 O N H9-87Rb 159277 15 159227 3 81De.A R11 2.5 U -1.3 C3 13C O N H8-87Rb 154809 25 154757 3 81De.A R11 2.5 U -.8 C4 H7 O2-87Sr 135722.2 3.5 135720.4 2.8 63Ri07 M15 2.5 1 -.2 86Kr H-87Rb 9309 16 9254 5 81De.A R11 2.5 U -1.4 87Rb-86Kr -1477 30 -1429 5 81De.A R11 2.5 U .6 87Rb-85Rb -2620 35 -2606.4 3.0 81De.A R11 2.5 U .2 85Rb-87Rb.489 83Rb.512 -310 30 -328 11 82Au01 P2 1.5 1 -.4 84Rbx-87Rb.241 83Rb.759 1080 40 970 40 82Au01 P2 1.5 1 -1.8 87Sr(p,t)85Sr -11440 10 -11436 3 73Ba56 1 .4 86Kr(n,g)87Kr 5515.4 .8 5515.4 0.8 77Je03 1 -.0 86Sr(n,g)87Sr 8428.2 .8 8428.3 0.8 70Or05*69Ly07 1 .1 86Sr(p,g)87Y 5785.4 3.3 5784.9 1.6 71Um03 R -.2 87Mo(ep)86Zr 3700 300 3250# 370# 83Ha06 D -1.5 87Br(B-)87Kr 6830 120 79Al05 2 87Kr(B-)87Rb 3888 7 3887 5 73Wo01 1 -.2 87Rb(B-)87Sr 273 2 282.3 1.9 61Be41*59Fl40 F 4.7 87Rb(3He,t)87Sr 264 2 263.7 1.9 82Ko06 1 -.1 87Sr(p,n)87Y -2643.5 1.5 -2643.4 1.4 71Um03 2 .1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 87Nb(B+)87Zr 5169 60 82De43 3 87Mo(B+)87Nb 6738 308 82De43 4 *86Sr(n,g)87Sr S(n)=8428.2(1.0,Ly),8427.8(1.5,Or),8428.5(1.1,Gr) 72Gr23 *87Rb(B-)87Sr Q-=272(3,Fe),274(3,Be) AHW C4 H8 O2-88Sr 146789.1 4.7 146810.8 2.8 63Ri07 M15 2.5 1 1.8 86Kr(t,p)88Kr 4091 15 4087 13 76Fl02 1 -.3 87Rb(d,p)88Rb 3858 15 3855 4 71Ra17 - -.2 3837 20 71To05 - .9 ave 3850 12 average 1 .4 87Sr(n,g)88Sr 11113.0 .6 11113.0 0.6 70Or05,69Ly07 1 -.0 88Br(B-)88Kr 8970 130 79Al05 2 88Kr(B-)88Rb 2930 30 2913 14 78Wo15 1 -.6 88Rb(B-)88Sr 5316 4 5316 4 80De02,82Br23 1 .0 88Y(B+)88Sr 3622.6 1.5 79An36 2 C7 H5-89Y 133247.0 3.4 133277 3 63Ri07 M15 2.5 1 3.5 88Rb-89Rb.494 87Rb.506 545 23 570 5 82Au01 P2 1.5 1 .7 89Y(d,a)87Sr 7889 15 7883.3 2.7 72Br13 1 -.4 88Sr(d,p)89Sr 4133 5 4141 4 67Sp09 MIT 1 1.6 88Sr(p,g)89Y 7078 4 7075.0 2.7 75Be.B 1 -.7 89Br(B-)89Kr 8140 140 8300# 400# 81Ho17 C 1.1 89Kr(B-)89Rb 4990 50 78Wo15,81Ho17 2 89Rb(B-)89Sr 4502 8 4498 7 66Ki06,80De02 1 -.6 89Sr(B-)89Y 1488 4 1492 3 70Wo05 1 1.0 89Zr(B+)89Y 2836 5 2833.4 2.6 60Ha26*53Sh48 - -.5 89Y(p,n)89Zr -3620 6 -3615.7 2.6 64Jo11 OAK - .7 -3613.8 4.1 63Ok01 JAP - -.5 89Zr(B+)89Y ave 2834.2 2.8 2833.4 2.6 average 1 -.3 89Nb(B+)89Zr 4340 50 4246 19 74Vo08 R -1.9 *89Zr(B+)89Y E+=897(7,Ha),901(10,Sh),910(10,Hy) to 913(3) level 51Hy24,NDS C4 H10 O2-90Zr 163377 6 163377.0 2.6 63Ri07 M15 2.5 1 .0 89Rb-90Rbx.791 85Rb.209 -1826 24 -1833 12 82Au01 P2 1.5 1 -.2 90Zr(3He,6He)87Zr -12083 8 78Pa11 2 90Zr(p,t)88Zr -12805 10 71Ba43 2 89Y(n,g)90Y 6857.25 0.30 6857.26 0.30 83De17*81Ra07 1 .0 89Y(p,g)90Zr 8351 4 8356.5 2.5 75Be.B 1 1.4 90Zr(p,d)89Zr -9728 10 -9748 3 71Ba43 - -2.0 90Zr(d,t)89Zr -5719.5 7.1 -5715 3 79Bo37 - .6 90Zr(p,d)89Zr ave -9744 6 -9748 3 average 1 -.6 90Br(B-)90Kr 9650 120 10700# 400# 78Be51 B 8.8 9800 400 81Ho17 B 2.3 90Kr(B-)90Rb 4390 30 70Ma11,78Wo15 2 90Rbm(it)90Rb 106.9 .2 76Wo04 2 90Rbx(it)90Rb 71 12 78 11 82Au01 1 .6 90Rb(B-)90Sr 6578 15 6589 12 80De02 1 .7 90Sr(B-)90Y 546 2 546.2 2.0 64Da16 1 .1 90Y(B-)90Zr 2277 6 2281.5 2.5 64Da16*61Ni02 1 .8 90Nb(B+)90Zr 6111 4 68Pe01* 2 90Mo(B+)90Nb 2487 4 66Pe10 3 90Tc(B+)90Mo 8830 240 9200# 300# 74Ia01*81Ox01 D 1.5 *89Y(n,g)90Y S(n)=6857.1(1.0,Ra),6857.26(.30,De) AHW *90Y(B-)90Zr Q-=2271(2,Ni),2284(5,Da),2280(5,Ri) 66Ri01 *90Y(B-)90Zr Other authors use deviating spectrum shapes AHW *90Nb(B+)90Zr E+=1500(4,Pe) to 3589.4 level 71Za03 *90Tc(B+)90Mo Q+=8900(40,Ia),8800(300,Ox) AHW C7 H7-91Zr 149143.1 4.4 149131.4 2.6 63Ri07 M15 2.5 1 -1.1 90Rbx-91Rb.824 85Rb.176 -686 24 -712 14 82Au01 P2 1.5 1 -.7 90Zr(n,g)91Zr 7194.40 .5 7194.5 0.5 81Lo.A 1 .3 90Zr(d,p)91Zr 4969.5 2.2 4970.0 0.5 79Bo37 U .2 91Zr(d,t)90Zr -940.6 3.7 -937.3 0.5 79Bo37 U .9 90Zr(p,g)91Nb 5167 5 5157.6 2.6 71Ra08 R -1.9 91Ru(ep)90Mo 4300 500 4480# 400# 83Ha06* D .4 91Kr(B-)91Rb 6420 80 78Wo15 2 91Rb(B-)91Sr 5857 8 5867 7 80De02 1 1.2 91Sr(B-)91Y 2684 4 2686 4 73Ha11 1 .6 91Y(B-)91Zr 1545 2 1545.6 2.0 75Ra08 1 .3 91Zr(p,n)91Nb -2045 6 -2037.0 2.5 70Ki01 2 1.3 -2038.8 3.4 71Ma47 2 .5 91Mo(B+)91Nb 4460 30 4438 13 56Sm96 R -.7 91Tc(B+)91Mo 6222 200 74Ia01 3 *91Ru(ep)90Mo Lower limit. Probably 1/2- isomer 83Ha06 C7 H8-92Zr 157569.4 3.8 157561.6 2.6 63Ri07 M15 2.5 1 -.8 C7 H8-92Mo 155790.0 3.2 155792 4 63Ri07 M15 2.5 1 .3 88Rb-92Rb.410 85Rb.592 -3258 22 -3276 7 82Au01 P2 1.5 1 -.5 89Rb-92Rb.553 85Rb.449 -3457 24 -3437 11 82Au01 P2 1.5 1 .6 91Rb-92Rb.848 85Rb.153 -1703 25 -1762 12 82Au01 P2 1.5 1 -1.6 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 90Rbx-92Rb.699 85Rb.303 -2059 24 -2069 15 82Au01 P2 1.5 1 -.3 90Rbx-92Rb.326 89Rb.674 209 24 195 13 82Au01 P2 1.5 1 -.4 92Mo(p,a)89Nb -1306 20 -1322 19 75Se.A 2 -.8 92Mo(3He,6He)89Mo -14465 15 80Pa02 2 91Zr(n,g)92Zr 8635.11 .24 8635.15 0.24 79Br25 1 .1 92Mo(p,d)91Mo -10451 13 -10455 12 73Ko03,73Mo03 2 -.3 92Kr(B-)92Rb 6160 80 78Wo15 2 92Rb(B-)92Sr 8111 15 8120 12 80De02 1 .6 92Sr(B-)92Y 1924 15 1888 12 57He39*78Wo15 1 -2.4 92Y(B-)92Zr 3633 12 3612 10 62Bu16*83Ia02 1 -1.7 92Zr(p,n)92Nb -2790.7 2.3 -2788.2 1.7 74Ku01 - 1.1 -2792 5 75Ke12 - .8 -2788 5 R092Zr 92Nbm - -.0 ave -2790.5 1.9 average 1 1.2 92Nbm(B+)92Zr 2141 5 2141.4 1.7 62Bu16*59We30 R .1 92Nbm(it)92Nb 135.5 .4 NDS 2 92Mo(p,n)92Tc -8672 50 -8653 26 66Mo06* 2 .4 92Mo(3He,t)92Tc -7882 30 -7889 26 73Ha02 2 -.2 *92Sr(B-)92Y E-=1930(30,Wo),1920(20,Ia),545(30,He) to 1383.9 level 83Ia02,NDS *92Y(B-)92Zr Q-=3640(20,Bu),3630(15,Ia) AHW *92Nbm(B+)92Zr E+=185(5) from B+/e=.00056(6,We),.00060(6,Bu), AHW *92Nbm(B+)92Zr to 934.5 level NDS *92Mo(p,n)92Tc T=9040(50,Mo) to 270.0 level NDS C7 H9-93Nb 164046.9 3.5 164048.1 2.7 63Ri07 M15 2.5 1 .1 91Rb-93Rb.489 89Rb.511 -472 9 -499 9 83Au.A P6 1.5 1 -2.0 91Rb-93Rb.326 90Rbx.674 -656 23 -669 11 82Au01 P2 1.5 1 -.4 92Rb-93Rb.495 91Rb.505 465 23 426 12 82Au01 P2 1.5 1 -1.1 92Sr(n,g)93Sr 5230 6 5237 6 80Kr07 1 1.2 92Zr(n,g)93Zr 6734.2 .6 6734.1 0.6 72Gr23,79Ke.D 1 -.2 93Nb(g,n)92Nb -8825 3 -8830.4 2.0 79Ba06 1 -1.8 92Mo(n,g)93Mo 8067.4 1.5 8067.2 1.5 73Wa17 1 -.1 92Mo(p,g)93Tc 4086.5 1.0 4086.8 0.9 83Ay01 2 .3 92Mo(3He,d)93Tc -1411 4 -1406.8 0.9 83Wi.A 2 1.1 93Kr(B-)93Rb 8530 120 78Be51 2 93Rb(B-)93Sr 7485 15 7443 13 80De02 1 -2.8 93Sr(B-)93Y 4110 20 4114 14 83Ia02 1 .2 93Y(B-)93Zr 2883 12 2884 11 59Kn38*83Ia02 1 .1 93Zr(B-)93Nb 93.4 2. 90.5 1.6 53Gl.A* 1 -1.5 93Nb(p,n)93Mo -1190 5 -1188 4 75Ch05 - .4 -1188 10 68Fi01 - -.0 ave -1190 4 average 1 .4 93Tc(B+)93Mo 3190 3 3198.1 1.7 51Bo48*74An24 R 2.7 93Rum(e)93Tc 7070 85 83Ay01 3 93Rum(it)93Ru 734.4 .1 NDS 4 *93Y(B-)93Zr Q-=2890(20,Kr),2880(15,Ia) AHW *93Zr(B-)93Nb E-=63(2,Gl) to 30.4 level NDS *93Tc(B+)93Mo E+=800(5,Bo),807(3,An) to 1364.7 level NDS *93Tc(B+)93Mo Two reaction results correspond to E+=818(3) AHW C7 H10-94Zr 171929.4 3.9 171935.6 2.8 63Ri07 M15 2.5 1 .6 C7 H10-94Mo 173159.6 3.2 173165.1 2.6 63Ri07 M15 2.5 1 .7 94Zr 35Cl-92Zr 37Cl 4235.0 2. 4226.2 2.2 63Ba20 H13 4.0 1 -1.1 94Mo 35Cl-92Mo 37Cl 1234.0 2. 1227 4 63Bi12 H11 4.0 1 -.9 92Rb-94Rbx.587 89Rb.413 -764 24 -773 17 82Au01 P2 1.5 1 -.3 92Rb-94Rbx.489 90Rbx.511 -717 23 -741 15 82Au01 P2 1.5 1 -.7 93Rb-94Rbx.742 90Rbx.258 -1296 25 -1264 20 82Au01 P2 1.5 1 .9 94Zr(d,a)92Y 8278 25 8287 10 74Gi09 1 .4 94Zr(d,t)93Zr -1960.5 2.4 -1962.7 2.0 79Bo37 1 -.9 93Nb(n,g)94Nb 7229.6 .7 7229.5 0.7 75Ha40,68Ju01 1 -.1 94Rbm(it)94Rb 300 130 82Pa24* 2 94Rbx(it)94Rb 0 500 -150 30 82Au01 1 -.3 94Rby(it)94Rb 0 500 90 30 82Au01 1 .2 94Rbz(it)94Rb 0 5 0 5 AHW 1 .0 94Rb(B-)94Sr 10300 50 10307 27 82Pa24*80De02 1 .1 94Sr(B-)94Y 3512 5 3512 5 80De02 1 .0 94Y(B-)94Zr 4920 5 4920 5 80De02 1 .0 94Nb(B-)94Mo 2047 3 2045.3 2.3 68Ho10*66Sn02 1 -.6 94Tc(B+)94Mo 4260 6 4256 5 64Ha29 2 -.7 94Mo(p,n)94Tcm -5103.3 7. -5111 6 73Mc04 R -1.2 94Tcm(it)94Tc 73 4 NDS 3 94Rh(B+)94Ru 10000 400 9600# 300# 80Ox01 D -1.0 *94Rbm(IT)94Rb If isomerism exists,Q-(m)=10410(90),Q-(g)=10110(90) 82Pa24 *94Rb(B-)94Sr Q=10250(70,Pa),10304(30,De),10353(100,Br) 82Br23 *94Nb(B-)94Mo E-=470(6,Sn),473(3,Ho)473(3,He) to 1573.3 level NDS C7 H11-95Mo 180236.5 3.5 180234.3 2.2 63Ri07 M15 2.5 1 -.2 93Rb-95Rb.653 89Rb.348 -1323 25 -1270 16 82Au01 P2 1.5 1 1.4 93Rb-95Rb.587 90Rbx.413 -1376 24 -1308 16 82Au01 P2 1.5 1 1.9 94Rbx-95Rb.792 90Rbx.209 -16 28 8 25 82Au01 P2 1.5 1 .6 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 92Rb-95Rb.242 91Rb.758 80 23 57 13 82Au01 P2 1.5 1 -.7 93Rb-95Rb.489 91Rb.511 -660 14 -745 14 83Au.A P6 1.5 B -4.1 94Rbz-95Rb.660 92Rb.341 425 14 424 20 83Au.A P6 1.5 1 -.1 94Zr(n,g)95Zr 6462.3 1.0 6462.7 1.0 79Ke.D 1 .4 94Mo(n,g)95Mo 7367 2 7367.3 1.7 77Ri04 1 .2 95Rb(B-)95Sr 8947 100 9280 60 80De02* F 3.4 9260 70 82Pa24 1 .4 95Sr(B-)95Y 6080 90 6120 60 70Ma.A,78St02 1 .5 95Y(B-)95Zr 4445 5 4445 5 80De02 1 .0 95Zr(B-)95Nb 1121 3 1124.3 2.2 55Dr43*54Za05 1 1.1 95Nb(B-)95Mo 925.5 .5 925.6 0.5 63La06 1 .2 95Tc(B+)95Mo 1691 6 1691 6 R095Mo 95Tcm 1 .1 95Tcm(B+)95Mo 1730 6 1730 6 65Cr04*74An05 R .0 95Tcm(it)95Tc 38.9 .1 NDS 2 95Ru(B+)95Tc 2560 30 2569 13 68Pi03 1 .3 95Rh(B+)95Ru 5110 150 75We03 2 *95Rb(B-)95Sr Lower limit 80De02 *95Zr(B-)95Nb Q-=1125(8,Za),1119(5,Dr),1122(3,An) 74An22,NDS *95Tcm(B+)95Mo Q+=1732(6,An),1721(10,Cr) AHW C7 H12-96Zr 185628 6 185625 4 63Ri07 M15 2.5 1 -.2 C7 H12-96Mo 189226.9 3.0 189221.9 2.2 63Ri07 M15 2.5 1 -.7 C7 H12-96Ru 186304.6 3.8 186301 8 63Da10 M16 2.5 1 -.4 96Zr 35Cl-94Zr 37Cl 4929 3 4910.4 2.8 63Ba20 H13 4.0 1 -1.6 96Mo 35Cl-94Mo 37Cl 2539 2 2543.3 1.9 63Bi12 H11 4.0 1 .5 93Rb-96Rb.554 89Rb.448 -2210 27 -2202 18 82Au01 P2 1.5 1 .2 95Rb-96Rb.848 89Rb.152 -1590 30 -1545 17 82Au01 P2 1.5 1 1.0 94Rbx-96Rb.699 89Rb.302 -1250 30 -1270 26 82Au01 P2 1.5 1 -.5 94Rby-96Rb.587 91Rb.413 -441 25 -422 24 82Au01 P2 1.5 1 .5 95Rb-96Rb.742 92Rb.258 -1116 27 -1138 16 82Au01 P2 1.5 1 -.6 -1149 17 83Au.A P6 1.5 1 .4 96Ru(p,t)94Ru -11165 10 71Ba01 2 96Zr(t,a)95Y 8294 20 8297 6 83Fl06 U .2 96Zr(d,t)95Zr -1596.1 2.8 -1596.7 2.5 79Bo37 1 -.2 96Mo(t,a)95Nb 10524 20 10516.5 0.7 83Fl06 1 -.4 95Mo(n,g)96Mo 9154.2 .5 9154.3 0.5 70He27 1 .2 96Ru(p,d)95Ru -8470 10 -8469 10 71Ba01 1 .1 96Rbm(it)96Rb 390 270 * 82Pa24* U 96Rb(B-)96Sr 10800 220 11750 50 79Pe17 B 4.3 11710 70 82Pa24*82Br23 1 .6 96Sr(B-)96Y 5413 20 5416 20 80De02 1 .2 5330 30 79Pe17 B 2.9 96Y(B-)96Zr 7120 50 7140 40 80De02 1 .4 96Nb(B-)96Mo 3187 4 68An03 2 96Mo(p,n)96Tc -3754 6 -3756 5 78Ke10 2 -.3 -3760 10 74Do09 2 .4 96Ru(p,n)96Rh -7223.8 10. 70As08 2 *96Rbm(IT)96Rb Isomers with spins 1 and 2 reported 81Bo30 *96Rbm(IT)96Rb If isomerism exists,Q-(m)=11740(250),Q-(g)=11350(100) 82Pa24 *96Rb(B-)96Sr Q-=11800(90,Pa),11550(100,Br) AHW C5 H5 O2-97Mo 122937.6 2.3 122934.0 2.2 63Ri07 M15 2.5 1 -.6 94Rby-97Rb.485 91Rb.516 -21 25 -31 24 82Au01 P2 1.5 1 -.3 96Rb-97Rb.792 92Rb.209 650 30 661 19 82Au01 P2 1.5 1 .2 95Rb-97Rb.490 93Rb.511 -165 25 -114 18 82Au01 P2 1.5 1 1.4 96Rb-97Rb.742 93Rb.258 849 17 857 18 83Au.A P6 1.5 1 .3 96Zr(n,g)97Zr 5574 5 5579 3 77Ba33 1 1.1 96Mo(n,g)97Mo 6821.1 1.0 6821.3 1.0 73De39 1 .2 96Mo(3He,d)97Tc 229 8 225 4 74Co27 - -.5 220 8 74Co27 - .6 ave 224 6 average 1 .1 96Ru(d,p)97Ru 5886 3 5886.9 2.8 77Ho02 - .3 5892 7 77Me04 - -.7 ave 5886.9 2.8 average 1 -.0 97Rb(B-)97Sr 10020 50 10520 70 80De02* F 10.0 10460 90 82Pa24 1 .7 97Sr(B-)97Y 7420 80 7470 70 79Ke.B 1 .6 97Y(B-)97Zr 6645 70 6680 60 79Ke.B 1 .5 97Zr(B-)97Nb 2657.4 2. 2658.3 1.9 74Ra.A* 1 .4 97Nb(B-)97Mo 1932.9 2. 1933.8 1.9 74Ra.A* 1 .5 97Mo(p,n)97Tc -1128 9 -1103 4 70Ki01* F 2.8 -1102 6 74Co27 1 -.1 97Ru(B+)97Tc 1150 100 1110 9 70Ho01* 1 -.4 97Rh(B+)97Ru 3510 30 62Ba28,62Ch21 2 97Pd(e)97Rh 4800 300 80Go11 3 *97Rb(B-)97Sr Lower limit 80De02 *97Zr(B-)97Nb E-=1914(2,Ra) to 743.4 level NDS *97Nb(B-)97Mo E-=1275(2,Ra) to 657.9 level NDS *97Mo(p,n)97Tc Conflicts too with 96Mo(3He,d) + 96Mo(n,g) AHW *97Ru(B+)97Tc Decay to 971 level,no B+ to 215.2 level AHW 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S C5 H6 O2-98Mo 131375.4 2.8 131372.1 2.2 63Ri07 M15 2.5 1 -.5 C7 H14-98Ru 204263.5 2.9 204263 7 63Da10 M16 2.5 1 -.0 94Rby-98Rb.411 91Rb.590 -290 40 -319 29 82Au01 P2 1.5 1 -.5 97Rb-98Rb.792 93Rb.209 -250 60 -270 30 82Au01 P2 1.5 1 -.2 96Rb-98Rb.490 94Rby.511 330 30 326 27 82Au01 P2 1.5 1 -.1 97Rb-98Rb.660 95Rb.340 -300 50 -222 29 82Au01 P2 1.5 1 1.0 -220 30 83Au.A P6 1.5 1 -.0 96Zr(t,p)98Zr 3508 20 3507 20 69Bl01 1 -.1 96Zr(3He,p)98Nb 5728 5 75Me13 2 96Ru(16O,14C)98Pd -12529 20 82Th01 2 98Mo(t,a)97Nb 10019 20 10020.1 2.0 83Fl06 1 .1 97Mo(n,g)98Mo 8642.4 .5 8642.5 0.5 71He10 1 .2 97Mo(3He,d)98Tc 680 8 683 3 74Co27 - .3 686 10 76Ma16 - -.3 ave 682 6 average 1 .0 98Rbm(it)98Rb 245 180 * 82Pa24* U 98Rb(B-)98Sr 11200 110 12430 80 79Pe17 B 11.2 12400 100 82Pa24*82Br23 1 .3 98Sr(B-)98Y 5870 70 5880 60 79Ke.B 1 .2 5730 40 79Pe17 B 3.9 98Y(B-)98Zr 8900 70 8910 60 79Ke.B*79Pe17 1 .2 98Mo(p,n)98Tc -2458 10 -2466 3 74Co27 1 -.8 98Tc(B-)98Ru 1795 22 1796 7 73Ok.A 1 .0 98Ru(p,n)98Rh -5839.7 10. 70As08 2 *98Rbm(IT)98Rb Isomers with halflives 96 and 114 ms reported 80Sc13 *98Rbm(IT)98Rb If isomerism exists,Q-(m)=12645(145),Q-(g)=12400(100) 82Pa24 *98Rb(B-)98Sr Q-=12340(150,Br),12440(110,Pa) AHW *98Y(B-)98Zr Q-=8830(90,Ke),8980(100,Pe) AHW C7 H15-99Ru 211442.8 3.0 211436.6 2.3 63Da10 M16 2.5 1 -.8 99Ru-98Ru 652 11 652 7 63Da10 M16 2.5 1 -.0 97Rb-99Rb.653 93Rb.348 100 100 230 70 82Au01 P2 1.5 1 .9 98Rb-99Rb.742 95Rb.258 690 180 660 90 82Au01 P2 1.5 1 -.1 97Rb-99Rb.490 95Rb.511 250 50 270 50 83Au.A P6 1.5 1 .3 96Ru(16O,13C)99Pd -11723 20 -11741 15 82Th01 1 -.9 98Mo(n,g)99Mo 5925.4 .7 5925.6 0.7 76Ch02,74Er.A 1 .3 98Mo(3He,d)99Tc 1010 20 1006.7 1.2 77Ch06 U -.2 99Tc(p,d)98Tc -6755 9 -6742 3 77Em02 - 1.4 -6740 5 76Sl06 - -.4 ave -6744 4 average 1 .3 99Rb(B-)99Sr 11260 100 11310 90 82Da.A 1 .5 99Sr(B-)99Y 7830 150 7950 120 82Da.A 1 .8 99Y(B-)99Zr 7570 90 7610 80 79Ke.B 1 .5 99Zr(B-)99Nb 4560 70 4590 70 70Ei02,79Ke.B 1 .4 99Nb(B-)99Mo 3480 140 3640 13 70Ei02,78St02 U 1.1 99Mo(B-)99Tc 1356.6 1.0 1357.0 1.0 71Na01* 1 .4 99Tcm(it)99Tc 142.63 .03 NDS 2 99Tc(B-)99Ru 293 2 293.6 1.3 51Ta05*52Fe16 - .3 293.0 2.0 R099Ru 99Tcm - .3 ave 293.0 1.4 average 1 .4 99Tcm(B-)99Ru 435.6 2.0 436.2 1.3 80Al02* R .3 99Rh(B+)99Ru 2103 10 2099 9 52Sc11 1 -.4 99Rhm(B+)99Ru 2160 30 59To.A,74An23 2 99Rhm(it)99Rh -64.6 .5 60 30 69Ph01* F 252.2 99Pd(B+)99Rh 3345 20 3327 15 69Ph01 1 -.9 99Ag(B+)99Pd 5430 150 81Hu03 2 *99Mo(B-)99Tc E-=1214(1) to 142.6 level NDS *99Tc(B-)99Ru Q-=292(3,Ta),290(4,Fe),293(2,Re) 74Re11 *99Tcm(B-)99Ru E- to gs and 89.4 level 80Al02 *99Rhm(IT)99Rh Assignment of 64.6 level doubtful,see Q+ for both AHW C7 H16-100Mo 217730.3 4.2 217724 6 63Ri07 M15 2.5 1 -.6 C7 H16-100Ru 220983.8 3.7 220981.3 2.4 63Da10 M16 2.5 1 -.3 100Mo 35Cl-98Mo 37Cl 5019 2 5019 6 63Bi12 H11 4.0 1 .1 96Ru(16O,12C)100Pd -5599 26 -5601 13 82Th01 1 -.1 100Mo(d,3He)99Nb -5639 15 -5654 12 74Bi08 - -1.0 100Mo(t,a)99Nb 8642 20 8666 12 83Fl06 - 1.2 100Mo(d,3He)99Nb ave -5653 12 -5654 12 average 1 -.1 99Tc(n,g)100Tc 6764.4 1. 79Pi08 2 99Ru(n,g)100Ru 9673.2 .7 9673.3 0.7 74Ri03 1 .1 100Y(B-)100Zr 9000 600 9900# 400# 77Kh03 D 1.5 100Zr(B-)100Nb 3330 70 79Ke.B 3 100Nb(B-)100Mo 6240 30 83Ke.1,78St02 2 100Nbm(B-)100Mo 6745 75 6714 28 79Ke.B 2 -.4 100Mo(t,3He)100Nbm -6690 30 -6695 28 79Aj03 2 -.2 100Rh(B+)100Ru 3630 20 53Ma64 2 100Ag(B+)100Pd 7090 90 79Ve.A*83Ra10 2 *100Ag(B+)100Pd Q-=7075(90,Ve),7170(250,Ra) AHW C8 H5-101Ru 133549.5 2.2 133543.3 2.4 63Da10 M16 2.5 1 -1.1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 100Mo(n,g)101Mo 5399.2 .8 5399.2 0.8 75Ka.A,79We07 1 -.0 100Ru(n,g)101Ru 6802.0 0.7 6802.1 0.7 82Ba.1 1 .1 101Zr(B-)101Nb 5780 120 79Ke.B 3 101Nb(B-)101Mo 4630 70 79Ke.B 2 101Mo(B-)101Tc 2820 40 2812 24 57Ok.A 1 -.2 101Tc(B-)101Ru 1630 30 1625 24 57Ok.A 1 -.2 101Pd(B+)101Rh 1982 4 71Ib01 3 101Ag(B+)101Pd 4210 120 79Ve.A,78Ha11 4 101Cd(B+)101Ag 5530 130 70Be62* 5 *101Cd(B+)101Ag Lower limit 70Be62 C8 H6-102Ru 142604.8 3.2 142601.7 2.5 63Da10 M16 2.5 1 -.4 C8 H6-102Pd 141324 19 141316 5 63Da10 M16 2.5 1 -.2 141346 18 81De.A R11 2.5 U -.7 C7 N H4-102Pd 128775 19 128740 5 81De.A R11 2.5 U -.7 100Mo(t,p)102Mo 5034 20 72Ca10 2 100Mo(3He,p)102Tc 6054 20 6030 11 82De03 1 -1.2 102Pd(p,t)100Pd -10356 12 -10356 11 74De31 1 .0 101Ru(n,g)102Ru 9220.4 .9 9220.3 0.9 74Ri03 1 -.1 102Nb(B-)102Mo 7210 70 78St02,79Ke.B 3 102Rhm(B+)102Ru 2321 7 2336 5 63Bo17,61Hi06 1 2.2 102Rhm(it)102Rh 40 20 69Ko24 2 102Rhm(B-)102Pd 1150 6 1139 5 61Hi06 1 -1.9 102Ag(B+)102Pd 5880 110 79Ve.A 2 C8 H7-103Rh 149263.5 3.3 149275 4 63Da10 M16 2.5 1 1.4 149261 19 81De.A R11 2.5 U .3 C7 N H5-103Rh 136681 18 136699 4 81De.A R11 2.5 U .4 103Rh(p,t)101Rh -8275 17 64Th05 2 102Ru(n,g)103Ru 6232.4 .3 6232.41 0.30 72Se.A 1 .0 102Pd(n,g)103Pd 7624.6 1.5 7623.9 1.5 70Bo29 1 -.5 103Nb(B-)103Mo 5500 120 78Be51 4 103Tc(B-)103Ru 2350 70 2654 11 63Ki16*78Be51 F 4.3 103Ru(B-)103Rh 765 3 766.2 2.7 70Pe04*65Mu09 1 .4 103Pd(e)103Rh 575 3 572.2 2.8 78Be.B 1 -.9 103Ag(B+)103Pd 2670 50 62Pa05*66Ja12 2 103In(B+)103Cd 5450 200 6200# 300# 78Lh01,83Wo04 B 3.8 *103Tc(B-)103Ru Q-=2350(100,Ki),2480(100,Be),2200(100,Ni) 79Ni05 *103Ru(B-)103Rh Q-=764(4,Ro),763(6,Mu),762(5,Pe),769(4,Oh) 58Ro09,82Oh04 *103Ag(B+)103Pd Q+=2580(100,Pa),2700(50,Ja) also 2320(50,Ba) 69Ba02 *103Ag(B+)103Pd Scint.value (Ba) trusted less than B-spectr. and coinc AHW C8 H8-104Ru 157171.5 3.4 157177 6 63Da10 M16 2.5 1 .6 C8 H8-104Pd 158612 10 158571 6 63Da10 M16 2.5 1 -1.6 158599 12 81De.A R11 2.5 U -.9 C7 N H6-104Pd 146013 8 145995 6 81De.A R11 2.5 U -.9 C6 13C N H5-104Pd 141552 20 141525 6 81De.A R11 2.5 U -.5 104Pd-102Pd -1617 30 -1605 7 81De.A R11 2.5 U .2 104Ru(d,a)102Tc 7180 10 7186 9 82De03 1 .6 102Ru(t,p)104Ru 6648 30 6659 6 72Ca10 1 .4 104Ru(d,3He)103Tc -5289 10 -5287 9 83De.C* 2 .2 104Ru(t,a)103Tc 9048 30 9033 9 81Fl02 2 -.5 103Rh(n,g)104Rh 6999.0 .1 6999.00 0.10 81Ke03 1 .0 104Pd(d,t)103Pd -3762 25 -3756 7 64Co11 PIT 1 .2 104Tc(B-)104Ru 5620 70 78Su03 2 104Rh(B-)104Pd 2440 30 2442 6 55Bu33 1 .1 104Pd(p,n)104Ag -5061 4 79De44 2 104Agm(it)104Ag 6.9 .2 NDS 3 104Cd(B+)104Agm 1396 26 1137 13 79Pl06* B -10.0 104In(B+)104Cd 7170 200 8000# 200# 78Hu06,83Wo04 B 4.2 *104Ru(d,3He)103Tc Calculated from given M-A=-84606(12) AHW *104Cd(B+)104Agm 106Pd(d,p) gives 1135(15),see 106Sn(B+) AHW C8 H9-105Pd 165357 14 165347 6 63Da10 M16 2.5 1 -.3 165360 9 81De.A R11 2.5 U -.6 C7 N H7-105Pd 152773 18 152771 6 81De.A R11 2.5 U -.1 C6 13C N H6-105Pd 148309 26 148300 6 81De.A R11 2.5 U -.1 C7 O H5-105Pd 128970 18 128961 6 81De.A R11 2.5 U -.2 105Pd-104Pd 1049 35 1049.2 0.8 81De.A R11 2.5 U .0 104Ru(n,g)105Ru 5910.1 .2 5910.10 0.20 74Hr01,78Gu14 1 .0 104Ru(d,p)105Ru 3684.5 1.0 3685.53 0.20 76Ma49 U 1.0 104Pd(n,g)105Pd 7094.1 .7 7094.1 0.7 70Bo29 1 -.1 105Tc(B-)105Ru 3300 140 3800# 200# 63Ki16*75Su02 B 3.6 105Ru(B-)105Rh 1916 4 1916 4 67Sc01 1 .1 105Rh(B-)105Pd 566 3 566.2 2.9 51Du03*56La24 1 .1 105Ag(e)105Pd 1335 20 1343 10 67Pi03,67Sc26 1 .4 105Cd(B+)105Ag 2737 5 2737 5 53Jo20*81Bo.A 1 -.0 105In(B+)105Cd 5140 180 4750 15 83Wo04 B -2.2 4750 15 83Bo.A 2 *105Tc(B-)105Ru Q-=3200(200,Ka),3400(200,Ki,low for 103) AHW *105Rh(B-)105Pd Q-=570(5,Du),560(5,La),568(4,Ka) 64Ka23 *105Cd(B+)105Ag E+=1691(5,Jo),1687(5,Bo) to 25.5 level NDS 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S C8 H10-106Pd 174764.0 4.3 174772 6 63Da10 M16 2.5 1 .7 174751 32 81De.A R11 2.5 U .3 174766 8 81De.A R11 2.5 U .3 C7 13C H9-106Pd 170285 32 170302 6 81De.A R11 2.5 U .2 170298 30 81De.A R11 2.5 U .1 C7 N H8-106Pd 162186 18 162196 6 81De.A R11 2.5 U .2 C7 O H6-106Pd 138378 20 138387 6 81De.A R11 2.5 U .2 C8 H10-106Cd 171789.3 2.7 171789 7 63Da10 M16 2.5 1 -.0 171841 17 81De.A R11 2.5 U -1.2 C7 N H8-106Cd 159210 15 159213 7 81De.A R11 2.5 U .1 106Pd-105Pd -1608 25 -1600.2 1.1 81De.A R11 2.5 U .1 106Pd-104Pd -508 32 -551.1 1.3 81De.A R11 2.5 U -.5 106Te(a)102Sn 4323.5 30. 81Sc17 4 106Cd(3He,6He)103Cd -9173 17 78Pa11 2 104Ru(t,p)106Ru 5892 20 5893 10 72Ca10 1 .1 106Cd(p,t)104Cd -10802 15 -10818 9 82Cr01 2 -1.1 -10829 12 83De03 2 .9 105Pd(n,g)106Pd 9562.0 1.0 9562.0 1.0 70Or05,70Bo29 1 -.0 105Pd(3He,d)106Ag 322 8 320.5 2.6 75An07 1 -.2 106Cd(d,t)105Cd -4661 50 -4606 11 73De16 - 1.1 106Cd(3He,a)105Cd 9728 25 9714 11 75Ch21 - -.6 106Cd(d,t)105Cd ave -4606 22 -4606 11 average 1 -.0 106Ru(B-)106Rh 39.4 .3 39.40 0.30 50Ag01,58Gr07 1 .0 106Rh(B-)106Pd 3540 10 3540 9 58Gr07*52Al06 1 .0 106Ag(e)106Pd 2963.3 3. 2965.6 2.4 R106Pd 106Agm - .8 106Pd(p,n)106Ag -3756 5 -3748.0 2.4 79De44 - 1.6 106Ag(e)106Pd ave 2966.0 2.6 2965.6 2.4 average 1 -.2 106Agm(e)106Pd 3053 3 3055.3 2.4 78Ge01* R .8 106Agm(it)106Ag 89.63 .09 80Sa05 2 106In(B+)106Cd 6545 30 66Ca09* 2 106Inm(B+)106Cd 6100 200 7050# 300# 66Ca09*78Hu06 F 4.7 106Sn(B+)106In 3125 80 3300# 200# 79Pl06* B 2.2 *106Rh(B-)106Pd Q-=3530(10,Gr),3530(10,Al),3550(20,Se) 60Se05 *106Agm(e)106Pd From L/K 80Sa05 *106In(B+)106Cd E+=4890(30,Ca) to 632.7 level NDS *106Inm(B+)106Cd E+=2580(200,Hu),2700(100,Ca) to 2503.1 level 78Hu06,NDS *106Inm(B+)106Cd Both E+ assignment and levels somewhat uncertain AHW *106Sn(B+)106In Checks badly with systematics,see also 104Cd(B+) AHW C8 H11-107Ag 180986.4 3.1 180984 6 63Da10 M16 2.5 1 -.3 180994 17 81De.A R11 2.5 U -.2 C7 N H9-107Ag 168415 8 168408 6 81De.A R11 2.5 U -.4 C7 O H7-107Ag 144595 18 144598 6 81De.A R11 2.5 U .1 C6 13C O H6-107Ag 140131 16 140128 6 81De.A R11 2.5 U -.1 C6 N O H5-107Ag 132025 16 132022 6 81De.A R11 2.5 U -.1 107Te(a)103Sn 3982.2 50. 79Sc22 4 107Ag(p,t)105Ag -8994 10 -8992 9 75Ku14 1 .2 106Pd(n,g)107Pd 6525.2 2. 6535 7 70Or05* F 5.1 107Ag(p,d)106Ag -7305 11 -7310 7 75An07 1 -.4 107Ru(B-)107Rh 3150 300 62Pi02 2 107Rh(B-)107Pd 1510 40 1512 19 62Pi02 1 .1 107Pd(B-)107Ag 33 3 33.2 3.0 49Pa.B 1 .1 107Cd(B+)107Ag 1417 4 62La10 2 107In(B+)107Cd 3420 5 81Bo.A 3 *106Pd(n,g)107Pd From gamma's to 698,806,1509 levels, AHW *106Pd(n,g)107Pd assignment not certain AHW C8 H12-108Pd 190014 6 190005 4 63Da10 M16 2.5 1 -.6 190005 19 81De.A R11 2.5 U .0 C7 13C H11-108Pd 185532 30 185535 4 81De.A R11 2.5 U .0 C7 N H10-108Pd 177422 17 177429 4 81De.A R11 2.5 U .2 C6 13C N H9-108Pd 172943 18 172959 4 81De.A R11 2.5 U .4 C7 O H8-108Pd 153611 17 153620 4 81De.A R11 2.5 U .2 C6 N O H6-108Pd 141031 16 141044 4 81De.A R11 2.5 U .3 C8 H12-108Cd 189715.6 2.9 189725 6 63Da10 M16 2.5 1 1.3 189695 16 81De.A R11 2.5 U .7 C7 N H10-108Cd 177140 30 177149 6 81De.A R11 2.5 U .1 C6 13C N H9-108Cd 172653 15 172678 6 81De.A R11 2.5 U .7 C6 N O H6-108Cd 140746 15 140763 6 81De.A R11 2.5 U .5 108Pd-106Pd 425 40 417 7 81De.A R11 2.5 U -.1 108Cd-106Cd -2232 32 -2285 9 81De.A R11 2.5 U -.7 108Te(a)104Sn 3427.2 17. 65Ma12,81Sc17 4 108Pd(d,3He)107Rh -4456 20 -4455 18 83De.C 1 .0 108Pd(d,t)107Pd -2977 30 -2962 7 64Co11 PIT 1 .5 107Ag(n,g)108Ag 7269.5 .1 7269.50 0.10 81Bo.B*82Ma.A 1 -.0 108Ru(B-)108Rhm 1320 100 62Pi02 3 108Rh(B-)108Pd 4430 50 69Pi08 2 108Rhm(B-)108Pd 4500 600 62Pi02 2 108Ag(B+)108Pd 1902 25 1916 6 62Fr07 1 .6 108Ag(B-)108Cd 1650 40 1655 8 60Wa10 1 .1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 108In(B+)108Cd 5125 10 5125 10 62Ka23*81Bo.A 1 .0 108Inm(B+)108Cd 5200 20 81Bo.A*62Ka23 2 108Sn(B+)108In 2048 28 2049 28 79Pl06* 1 .0 *107Ag(n,g)108Ag S(n)=7269.6(.1,Bo),7269.36(.08,Ma) AHW *108In(B+)108Cd E+=1296(12,Bo),1290(50,Ka) to 2808.2 level NDS *108Inm(B+)108Cd E+=3500(50,Ka),3552(21,Bo) to 633.0 level NDS *108Sn(B+)108In But see 106Sn(B+) and 104Cd(B+) AHW C8 H13-109Ag 196972.1 3.8 196970 4 63Da10 M16 2.5 1 -.2 196972 6 81De.A R11 2.5 U -.1 C6 13C O H8-109Ag 156110 16 156114 4 81De.A R11 2.5 U .1 C6 N O H7-109Ag 148006 16 148008 4 81De.A R11 2.5 U .1 109Ag-107Ag -335 28 -336 7 81De.A R11 2.5 U -.0 109Te(a)105Sn 3197.6 50. 65Ma12,79Sc22 2 108Pd(n,g)109Pd 6154.0 .3 6154.00 0.30 80Ca02 1 -.0 109Ag(g,n)108Ag -9196 26 -9186 6 60Ge01 PEN - .4 109Ag(d,t)108Ag -2947 30 -2929 6 64Co11 PIT - .6 109Ag(g,n)108Ag ave -9200 20 -9186 6 average 1 .7 108Cd(3He,d)109In -971 7 -960 6 80Ta07* 1 1.6 109Te(ep)108Sn 7140 60 7150 60 73Bo20 1 .1 109Rh(B-)109Pd 2577 50 2590 23 78Ka10 1 .3 109Pd(B-)109Ag 1116 2 1115.9 2.0 62Br15 1 -.1 109Cd(e)109Ag 182 3 184.1 2.9 68Go.A 1 .7 109In(B+)109Cd 2016 8 2031 6 62No06,71Ba08 1 1.9 109Sb(B+)109Sn 6380 16 82Jo03 3 *108Cd(3He,d)109In Q-Q(110Cd(3He,d)111In)=806.5(2.6,Ta),Q(110)=-164.5(6) AHW C8 H14-110Pd 204389 9 204384 20 63Da10 M16 2.5 1 -.2 204380 20 81De.A R11 2.5 U .1 C7 13C H13-110Pd 199913 20 199914 20 81De.A R11 2.5 U .0 C6 N O H8-110Pd 155418 17 155422 20 81De.A R11 2.5 U .1 C5 13C N O H7-110Pd 150946 17 150952 20 81De.A R11 2.5 U .1 C6 O2 H6-110Pd 131609 18 131613 20 81De.A R11 2.5 U .1 C8 H14-110Cd 206548.4 4.6 206545 4 63Da10 M16 2.5 1 -.3 206550 45 81De.A R11 2.5 U -.0 206569 13 81De.A R11 2.5 U -.7 C7 13C H13-110Cd 202093 14 202075 4 81De.A R11 2.5 U -.5 202053 28 81De.A R11 2.5 U .3 C7 O H10-110Cd 170156 16 170160 4 81De.A R11 2.5 U .1 C6 N O H8-110Cd 157614 17 157584 4 81De.A R11 2.5 U -.7 C5 13C N O H7-110Cd 153131 17 153114 4 81De.A R11 2.5 U -.4 C6 O2 H6-110Cd 133801 18 133774 4 81De.A R11 2.5 U -.6 C9 H2-110Cd 112661 19 112645 4 81De.A R11 2.5 U -.3 110Cd 35Cl-108Cd 37Cl 1764 5 1780 6 63Bi12 H11 4.0 1 .8 110Pd-108Pd 1288 35 1271 20 81De.A R11 2.5 U -.2 110Cd-108Cd -1219 34 -1171 6 81De.A R11 2.5 U .6 110Te(a)106Sn 2723.1 15. 81Sc17 4 110I(a)106Sb 3574.2 50. 81Sc17 4 110Xe(a)106Te 3878.3 30. 81Sc17 5 110Pd(d,3He)109Rh -5123 20 -5118 15 83De.C - .2 110Pd(t,a)109Rh 9206 25 9202 15 82Fl09 - -.2 110Pd(d,3He)109Rh ave -5120 16 -5118 15 average 1 .1 109Ag(n,g)110Ag 6809.2 .1 6809.20 0.10 81Bo.B 1 .0 110Rh(B-)110Pd 5400 100 70Pi01 2 110Agm(it)110Ag 117.76 .11 NDS 2 110Ag(B-)110Cd 2891 4 2892.7 1.7 67Mo12 - .4 2892.6 2. R110Cd 110Agm - .1 ave 2892.3 1.8 average 1 .2 110Agm(B-)110Cd 3010.3 2. 3010.5 1.7 67Mo12*63Da03 R .1 110In(B+)110Cd 3940 30 62Ka08*53Bl44 2 *110Agm(B-)110Cd E-=531(2,Mo),529(3,Da) to 2479.82 level NDS *110In(B+)110Cd E+=2310(20,Mc),2250(20,Bl),2220(20,Ka)to 657.7 level 51Mc11,NDS C8 H15-111Cd 213184.4 3.9 213194 3 63Da10 M16 2.5 1 .9 213197 40 81De.A R11 2.5 U -.0 C7 13C H14-111Cd 208719 19 208723 3 81De.A R11 2.5 U .1 C7 O H11-111Cd 176814 16 176808 3 81De.A R11 2.5 U -.1 C9 H3-111Cd 119317 18 119293 3 81De.A R11 2.5 U -.5 C8 N H-111Cd 106723 17 106717 3 81De.A R11 2.5 U -.1 110Cd H-111Cd 6638 18 6648.3 2.6 81De.A R11 2.5 U .2 111Cd-110Cd 1208 34 1176.7 2.6 81De.A R11 2.5 U -.4 111Cd H-110Cd 8994 35 9001.8 2.6 81De.A R11 2.5 U .1 111I(a)107Sb 3270.1 50. 79Sc22 5 111Xe(a)107Te 3703.7 50. 79Sc22,81Sc17 5 111Cd(g,n)110Cd -6975 3 -6975.2 2.4 79Ba06 1 -.1 111Te(ep)110Sn 5070 70 68Ba53 3 111Pd(B-)111Ag 2200 50 52Mc34,57Kn.A 3 111Ag(B-)111Cd 1037 2 71Na02,77Re12 2 111Cd(p,n)111In -1635 20 -1646 6 74Ki02 1 -.6 111Sb(B+)111Sn 4470 50 5100# 200# 72Si28 B 12.6 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S C8 H16-112Cd 222445.3 3.9 222444 3 63Da10 M16 2.5 1 -.1 C7 O H12-112Cd 186063 16 186058 3 81De.A R11 2.5 U -.1 C9 H4-112Cd 128541 19 128543 3 81De.A R11 2.5 U .1 128550 10 81De.A R11 2.5 U -.3 C8 N H2-112Cd 115979 14 115967 3 81De.A R11 2.5 U -.3 C8 H16-112Sn 220384 9 220374 5 63Da10 M16 2.5 1 -.4 112Cd 35Cl-110Cd 37Cl 2701 2 2701.6 2.8 63Bi12 H11 4.0 1 .1 111Cd H-112Cd 9255 20 9250.2 2.4 81De.A R11 2.5 U -.1 112Cd-110Cd H -8060 40 -8073.5 2.8 81De.A R11 2.5 U -.1 112Cd-111Cd -1410 42 -1425.2 2.4 81De.A R11 2.5 U -.1 112Cd-110Cd -238 39 -248.5 2.8 81De.A R11 2.5 U -.1 112Cd H-111Cd 6402 35 6399.8 2.4 81De.A R11 2.5 U -.0 112I(a)108Sb 2987.0 50. 79Sc22,81Sc17 3 112Xe(a)108Te 3318.8 20. 79Sc22,81Sc17 5 112Sn(3He,6He)109Sn -8686 9 78Pa11 2 110Pd(t,p)112Pd 5659 20 5653 19 72Ca10 1 -.3 112Cd(p,t)110Cd -7891 5 -7892.3 2.6 73Oo01 MIN 1 -.3 112Sn(p,t)110Sn -10485 15 70Fl08 2 112Cd(g,n)111Cd -9403 5 -9398.9 2.2 79Ba06 - .8 111Cd(d,p)112Cd 7171 5 7174.4 2.2 67Sp09 MIT - .7 7170 10 67Ba15 - .4 112Cd(g,n)111Cd ave -9399 3 -9398.9 2.2 average 1 -.1 112Sn(d,t)111Sn -4529.0 5.7 75Be09 2 112Pd(B-)112Ag 300 20 294 19 55Nu11 1 -.3 112Ag(B-)112Cd 4000 50 3960 28 57Je.A,62In01 1 -.8 112Cd(p,n)112In -3376 6 -3371 5 80Ad04* 1 .9 112In(B-)112Sn 656 6 661 5 53Bl44 1 .8 112Sb(B+)112Sn 7065 25 72Si28,82Jo03 2 112Sn(p,n)112Sb -7995 55 -7847 25 76Ka19 B 2.7 *112Cd(p,n)112In T=3583(6) to gs,3376(6) to 206.52 level 80Ad04 C9 H5-113Cd 134721.1 3.9 134725 3 63Da10 M16 2.5 1 .4 134727 19 81De.A R11 2.5 U -.0 134728 5 81De.A R11 2.5 U -.3 C7 O H13-113Cd 192250 16 192240 3 81De.A R11 2.5 U -.3 C6 13C O H12-113Cd 187772 17 187769 3 81De.A R11 2.5 U -.1 C8 N H3-113Cd 122161 19 122149 3 81De.A R11 2.5 U -.3 C9 H5-113In 135015 9 135064 4 63Da10 M16 2.5 1 2.2 135087 6 81De.A R11 2.5 U -1.5 C8 N H3-113In 122506 14 122488 4 81De.A R11 2.5 U -.5 113Cd 35Cl-111Cd 37Cl 3174 2 3168.6 2.4 63Bi12 H11 4.0 1 -.7 112Cd H-113Cd 6164 20 6181.3 0.5 81De.A R11 2.5 U .3 113Cd-111Cd H -7623 42 -7606.5 2.4 81De.A R11 2.5 U .2 113Cd-112Cd 1620 40 1643.7 0.5 81De.A R11 2.5 U .2 113In-112Cd 1297 45 1304 4 81De.A R11 2.5 U .1 113Cd-110Cd H -6412 32 -6429.8 2.8 81De.A R11 2.5 U -.2 113Cd-111Cd 242 35 218.5 2.4 81De.A R11 2.5 U -.3 113Cd H-112Cd 9467 35 9468.8 0.5 81De.A R11 2.5 U .0 113I(a)109Sb 2705.9 50. 79Sc22,81Sc17 4 113Xe(a)109Te 3094.8 50. 3100 50 79Sc22 1 .1 113Cd(p,t)111Cd -7456 5 -7457.3 2.2 73Oo01 MIN 1 -.3 113In(p,t)111In -8638 11 -8637 4 74Ma09* - .1 -8638 5 80Ta07* - .1 ave -8638 5 average 1 .1 112Cd(d,p)113Cd 4315.6 .5 4315.7 0.5 82Pi.A 1 .1 113In(d,t)112In -3180 25 -3188 5 67Hj03 1 -.3 112Sn(d,p)113Sn 5518.2 3.2 5520.9 2.9 75Be09 1 .8 112Sn(3He,d)113Sb -2400 40 -2438 24 68Co22 2 -1.0 113Xe(ep)112Te 7920 150 7880 150 82Pl05 1 -.3 113Cs(p)112Xe 980 80 83Fa.A 6 113Pd(B-)113Ag 3360 150 75Br.A 3 113Ag(B-)113Cd 2010 20 57Je.A 2 113Cdm(it)113Cd 263.6 .1 NDS 2 113Cd(B-)113In 316 15 316 4 R113In 113Cdm 1 .0 113Cdm(B-)113In 580 15 580 4 51Ca43,54De13 R -.0 113In(p,n)113Sn -1809 6 -1821 4 73Ra13 1 -2.0 113Sb(B+)113Sn 3930 30 3908 24 69Ki16*61Se08 R -.7 113Te(B+)113Sb 5650 150 6100# 200# 75Bu.B,74Ch17 C 3.0 *113In(p,t)111In Q-Q(115In(p,t)=810(10,Ma),Q(115)=-7828(4) AHW *113In(p,t)111In From Q(112Cd(3He,d)-110Cd(3He,d))=746.3(4.1), AHW *113In(p,t)111In and 112Cd(p,t) Q=-7892.2(2.6) AHW *113Sb(B+)113Sn E+=3920(30,Se),3950(50,Ki) AHW C8 H18-114Cd 237487.6 4. 237493 3 63Da10 M16 2.5 1 .6 C6 O2 H10-114Cd 164713 15 164722 3 81De.A R11 2.5 U .3 164711 15 81De.A R11 2.5 U .3 C9 H6-114Cd 143591 5 143593 3 81De.A R11 2.5 U .2 143586 8 81De.A R11 2.5 U .4 C8 13C H5-114Cd 139117 17 139123 3 81De.A R11 2.5 U .1 C8 N H4-114Cd 131017 12 131017 3 81De.A R11 2.5 U -.0 131009 20 81De.A R11 2.5 U .2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S C8 H18-114Sn 238092 10 238067 4 63Da10 M16 2.5 1 -1.0 114Cd 35Cl-112Cd 37Cl 3548.5 1.0 3550.6 0.6 73Me28 H26 2.5 1 .8 113Cd H-114Cd 8859 18 8868.27 0.21 81De.A R11 2.5 U .2 114Cd-112Cd H -7225 33 -7224.5 0.6 81De.A R11 2.5 U .0 114Cd-113Cd -1032 33 -1043.24 0.21 81De.A R11 2.5 U -.1 114Cd-113In -679 45 -704 4 81De.A R11 2.5 U -.2 114Cd-111Cd H -8651 35 -8649.8 2.4 81De.A R11 2.5 U .0 114Cd-112Cd 587 33 600.5 0.6 81De.A R11 2.5 U .2 114Cd H-113Cd 6821 35 6781.80 0.22 81De.A R11 2.5 U -.4 114Cs(a)110I 3357.0 50. 79Sc22,81Sc17 5 112Sn(t,p)114Sn 9579 15 9563 4 69Bj01 - -1.1 114Sn(p,t)112Sn -9582 15 -9563 4 70Fl08 - 1.3 112Sn(t,p)114Sn ave 9581 11 9563 4 average 1 -1.6 113Cd(n,g)114Cd 9043.13 .20 9043.15 0.20 79Br25 1 .1 114Cd(g,n)113Cd -9050 4 -9043.15 0.20 79Ba06 U 1.7 113In(n,g)114In 7273.9 1.2 7274.5 1.2 75Ra07 1 .5 114Sn(d,t)113Sn -4043.7 4.2 -4042 3 75Be09 1 .3 114Cs(ep)113I 8730 150 9120# 510# 82Pl05 C 2.6 114Pd(B-)114Ag 1450 100 75Br.A 3 114Ag(B-)114Cd 5030 110 71Ro19*72Wa06 2 114In(B-)114Sn 1981 3 1986.3 2.5 61Da01,64An12 1 1.8 114Sb(B+)114Sn 5690 50 5890 200 69Bu.A 2 4.0 114Sn(p,n)114Sb -6875 50 -6670 200 76Ka19* 2 4.0 *114Ag(B-)114Cd Q-=4850(150,Ro),4900(240,Wa),5160(110,Fo) 83Fo.A *114Sn(p,n)114Sb Original error 35 increased,see 112Sn(p,n) AHW C9 H7-115In 150910 8 150893 4 63Da10 M16 2.5 1 -.8 150932 16 81De.A R11 2.5 U -1.0 C6 O2 H11-115In 172055 16 172023 4 81De.A R11 2.5 U -.8 C8 N H5-115In 138355 13 138317 4 81De.A R11 2.5 U -1.2 C9 H7-115Sn 151411 8 151427 3 63Da10 M16 2.5 1 .8 115In-114Cd 483 45 524.6 2.9 81De.A R11 2.5 U .4 115In-113In -200 28 -179 4 81De.A R11 2.5 U .3 114Cd(d,p)115Cd 3916.3 .5 3916.3 0.5 82Pi.A 1 .1 115In(g,n)114In -9039 5 -9035 4 79Ba06 1 .8 114Sn(n,g)115Sn 7545.3 2.0 7546.2 1.7 78Ra15 - .4 114Sn(d,p)115Sn 5320.6 3.4 5321.6 1.7 75Be09 - .3 114Sn(n,g)115Sn ave 7545.3 1.7 7546.2 1.7 average 1 .5 115Xe(ep)114Te 6200 130 5800# 200# 72Ho18 B -3.1 115Ag(B-)115Cd 3140 70 64Ba36,78Ma18 2 115Cdm(it)115Cd 181.0 0.5 NDS 2 115Cd(B-)115In 1439 3 1441.8 2.7 R115In 115Cdm 1 .9 115Cdm(B-)115In 1620 3 1622.8 2.7 76Ra33*75Bo29 R .9 115Inm(it)115In 336.3 .1 67Mu08 2 115In(B-)115Sn 486 11 497 4 72Mu02*62Wa15 - 1.0 494 16 R115Sn 115Inm - .2 ave 489 9 average 1 1.0 115Inm(B-)115Sn 830 17 834 4 49Be53*62Se03 R .2 115Sb(B+)115Sn 3030 20 61Se08 2 115Te(B+)115Sb 4750 200 65Re01*65Kh05 3 *115Cdm(B-)115In Q-=1621(2,Ra),1612(5,Bo) AHW *115In(B-)115Sn Q-=480(30,Wa),495(20,Mu),482(15,Pf) 78Pf01 *115Inm(B-)115Sn E-=830(20,Be),830(30,Se) to gs(Se) AHW *115Te(B+)115Sb E+=2850(50,Kh),2800(50,Re),2650(50,Ch) 74Ch51 *115Te(B+)115Sb to 723.6...1380.6 levels NDS C9 H8-116Cd 157837.4 2.9 157845 4 63Da10 M16 2.5 1 1.1 157851 5 81De.A R11 2.5 U -.4 157846 22 81De.A R11 2.5 U -.0 C6 O2 H12-116Cd 178982 15 178975 4 81De.A R11 2.5 U -.2 C8 13C H7-116Cd 153376 8 153375 4 81De.A R11 2.5 U -.0 153382 22 81De.A R11 2.5 U -.1 C8 N H6-116Cd 145262 17 145269 4 81De.A R11 2.5 U .2 C9 H8-116Sn 160861 8 160853 3 63Da10 M16 2.5 1 -.4 116Cd 35Cl-114Cd 37Cl 4348.7 1.2 4347.7 2.2 73Me28 H26 2.5 1 -.3 116Cd-114Cd H -6452 32 -6427.4 2.2 81De.A R11 2.5 U .3 116Cd-113Cd H -7458 32 -7470.6 2.2 81De.A R11 2.5 U -.2 116Cd-114Cd 1370 32 1397.6 2.2 81De.A R11 2.5 U .3 116Cs(ea)112Te 12300 400 12570 300 76Jo.A,77Bo28 1 .7 116Cd(p,t)114Cd -6363 5 -6359.0 2.0 73Oo01 MIN 1 .8 116Cd(g,n)115Cd -8702 4 -8699.9 2.0 79Ba06 1 .5 115In(n,g)116In 6784.3 .9 74Co35,72Ra39 2 115Sn(n,g)116Sn 9562.2 1.1 9562.7 1.0 72Mc08,70Or05 - .4 116Sn(d,t)115Sn -3305.0 2.5 -3305.4 1.0 75Be09 - -.2 115Sn(n,g)116Sn ave 9562.2 1.0 9562.7 1.0 average 1 .5 115Sn(3He,d)116Sb -1439 10 -1420 5 78Ka12* R 1.9 116Csm(ep)115I 6450 300 7210# 480# 78Da07 C 2.5 116Pd(B-)116Ag 2615 100 75Br.A 3 116Ag(B-)116Cd 6000 120 82Br10*82Al29 2 116Sn(p,n)116Sb -5515 40 -5490 5 76Ka19 U .6 -5483.2 6. 77Jo03 - -1.1 -5508 10 R116Sb 115Sn - 1.8 ave -5490 5 average 1 .0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 116Te(B+)116Sb 1560 100 1540 100 61Fi05 1 -.2 116I(B+)116Te 7760 130 76Go02,70Be62 2 116Xe(B+)116I 4340 200 4500# 200# 76Go02* D .8 116Csm(it)116Cs 500 300 83Au.B 2 116Csx(it)116Cs 24 19 25 19 83Au.B 1 .0 *115Sn(3He,d)116Sb Q-Q(120Sn(3He,d))=-1722(10,Ka),Q(120)=283.2(2.7) AHW *116Ag(B-)116Cd Q-=5800(200,Br),6030(130,Al) AHW *116Xe(B+)116I E+=3400(300) possibly not gs transition 75Un.A C9 H9-117Sn 167486 12 167469 3 63Da10 M16 2.5 1 -.6 C 35Cl3-117Sn 3596 2 3602 3 62Ba24 H14 4.0 1 .7 116Cd(d,p)117Cd 3538 30 3543 13 64Ro17 - .2 3550 20 64Si18 - -.3 ave 3546 17 average 1 -.2 116Sn(n,g)117Sn 6943.4 1.5 6944.8 1.1 75Bh01,78Ra15 - 1.0 116Sn(d,p)117Sn 4721.0 1.8 4720.3 1.1 75Be09 - -.4 116Sn(n,g)117Sn ave 6944.3 1.2 6944.8 1.1 average 1 .5 116Sn(3He,d)117Sb -1090 10 -1087 9 78Ka12* R .3 117Xe(ep)116Te 4100 200 3700# 300# 72Ho18 D -2.0 117Ba(ep)116Xe 7900 300 8800# 500# 78Bo20 B 3.0 117Ag(B-)117Cd 4170 50 82Al29 2 117Cd(B-)117In 2530 20 2525 13 75Ta06 1 -.2 117Inm(it)117In 315.3 .5 75Ta06 2 117In(B-)117Sn 1456.7 5.0 1454 5 R117Sn 117Inm 1 -.6 117Inm(B-)117Sn 1772 5 1769 5 55Mc17 R -.6 117Sn(p,n)117Sb -2525 20 -2538 9 71Ke21 2 -.6 117Te(B+)117Sb 3530 30 67Be46,62Kh05 3 117I(B+)117Te 4310 100 4500# 200# 70Be62* F 1.9 117Csx(it)117Cs 50 50 AHW 2 *116Sn(3He,d)117Sb Q-Q(120Sn(3He,d)=1373(10,Ka),Q(120)=283.2(2.7) AHW *117I(B+)117Te Possibly lower limit 70Be62 C9 H10-118Sn 176645 7 176642 3 63Da10 M16 2.5 1 -.2 118Sn 35Cl-116Sn 37Cl 2814 2 2812.0 1.9 62Ba23 H15 4.0 1 -.3 117Csx-118Csx.496 116Csx.504 -1430 410 -960 160 83Au.B P8 1.5 1 .8 118Cs(ea)114Te 10700 200 11090# 240# 76Jo.A,77Bo28 D 2.0 116Cd(t,p)118Cd 5650 20 67Hi01 2 118Sn(d,3He)117In -4481 15 -4505 5 71We01 1 -1.6 117Sn(n,g)118Sn 9325.8 1.5 9326.6 1.4 75Sl.A,70Or05 1 .5 118Cs(ep)117I 4700 300 5080# 240# 78Da07 D 1.3 118Ag(B-)118Cd 7130 100 82Al29 3 118In(B-)118Sn 4200 300 61Gl02,64Ka10 2 118Sn(p,n)118Sb -4439.0 3. 77Jo03 2 118I(B+)118Te 7070 100 6400# 200# 68La18*70Be62 F -6.7 118Xe(B+)118I 3720 110 3200# 200# 70Be62* F -4.7 118Cs(B+)118Xe 9300 1000 9810# 310# 76Da.C D .5 118Csm(it)118Cs 500 300 82Au01 3 118Csx(it)118Cs 24 19 82Au01 2 *118I(B+)118Te Possibly upper isomer AHW *118Xe(B+)118I Lower limit 70Be62 C9 H11-119Sn 182778 7 182764 3 63Da10 M16 2.5 1 -.8 119Sn 35Cl-117Sn 37Cl 3306 2 3305.1 2.0 62Ba23 H15 4.0 1 -.1 118Csx-119Csx.661 116Csx.339 540 90 600 100 83Au.B P8 1.5 1 .4 118Csx-119Csx.496 117Csx.504 870 50 933 28 82Au01 P3 1.5 1 .8 1100 130 83Au.B P8 1.5 1 -.9 932 22 83Au.B P8 1.5 1 .0 118Sn(n,g)119Sn 6484.6 1.5 6485.5 1.4 78Ra15 1 .6 118Sn(3He,d)119Sb -390 10 -384 8 78Ka12* R .6 119Ba(ep)118Xe 6200 200 6800# 300# 78Bo20 B 3.0 119Ag(B-)119Cd 5350 40 82Al29 4 119Cd(B-)119In 3790 60 82Al29 3 119Sb(e)119Sn 579 20 593 8 57Ol05 2 .7 119Sn(p,n)119Sb -1369 15 -1376 8 71Ke21 2 -.4 119Te(B+)119Sb 2294 2 60Ko12 3 119I(B+)119Te 3370 100 70Be62 4 119Xe(B+)119I 4990 120 70Be62 5 119Csm(it)119Cs 100 70 82Au01 3 119Csx(it)119Cs 33 22 82Au01 2 *118Sn(3He,d)119Sb Q-Q(120Sn(3He,d)=673(10,Ka),Q(120)=283.2(2.7) AHW C9 H12-120Sn 191709 11 191701.3 2.9 63Da10 M16 2.5 1 -.3 13C 35Cl2 37Cl-120Sn 4758 3 4763.8 2.9 62Ba24 H14 4.0 1 .5 C9 H12-120Te 189879 9 189853 21 63Da10 M16 2.5 1 -1.2 120Sn 35Cl-118Sn 37Cl 3546 2 3540.5 2.6 62Ba23 H15 4.0 1 -.7 118Csx-120Csx.328 117Csx.672 460 120 450 40 82Au01 P3 1.5 1 -.1 119Csx-120Csx.661 117Csx.339 -940 50 -979 30 82Au01 P3 1.5 1 -.5 119Csx-120Csx.496 118Csx.504 -1220 30 -1202 19 82Au01 P3 1.5 1 .4 -1180 70 83Au.B P8 1.5 1 -.2 -1180 30 83Au.B P8 1.5 1 -.5 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 120Cs(ea)116Te 9300 300 9080 120 76Jo.A 1 -.7 120Te(p,t)118Te -9394 12 74De31 2 120Sn(d,3He)119In -5160 40 -5167 18 69Co03 2 -.2 -5169 20 71We01 2 .1 120Sn(d,t)119Sn -2847.0 2.5 -2850.1 2.1 75Be09 1 -1.2 120Ag(B-)120Cd 8200 100 82Al29 3 120In(B-)120Sn 5300 170 78Al18 2 120Sn(p,n)120Sb -3462.9 7.1 63Ok01 JAP 2 120I(B+)120Te 5400 200 70Ga32*68La18 2 120Xe(B+)120I 1950 200 74Mu10 3 120Cs(B+)120Xe 7400 500 8260 290 76Da.C,76Ba.A D 1.7 120Csm(it)120Cs 500 300 82Au01 2 120Csx(it)120Cs 24 19 23 19 82Au01 1 -.0 *120I(B+)120Te Q-=5000(100,La),5615(15,Ga) bad case! AHW C9 H13-121Sb 197910.5 3.7 197904.3 2.9 63Da10 M16 2.5 1 -.7 121Sb-C 35Cl 37Cl2 3162 3 3163.2 2.8 62Ba24 H14 4.0 1 .1 121Sb 35Cl-119Sn 37Cl 3452 2 3460 3 62Ba24 H14 4.0 1 1.0 119Csx-121Csx.328 118Csx.672 -1080 30 -1051 24 82Au01 P3 1.5 1 .6 120Csx-121Csx.661 118Csx.339 280 30 302 15 82Au01 P3 1.5 1 .5 120Csx-121Csx.496 119Csx.504 790 30 835 10 82Au01 P3 1.5 1 1.0 890 50 83Au.B P8 1.5 1 -.7 812 15 83Au.B P8 1.5 1 1.0 120Sn(n,g)121Sn 6170.3 2. 6171.5 1.2 76Ca24 - .6 120Sn(d,p)121Sn 3946.2 1.7 3946.9 1.2 75Be09 - .4 120Sn(n,g)121Sn ave 6170.6 1.3 6171.5 1.2 average 1 .7 121Sb(g,n)120Sb -9240 25 -9241 8 79Ba06 U -.0 120Te(3He,d)121I -1320.5 4.4 -1322 4 78Sz09 1 -.2 121Ba(ep)120Xe 4200 300 4600# 200# 78Bo20 D 1.3 121Ag(B-)121Cd 6400 120 82Al29 4 121Cd(B-)121In 4890 150 82Al29 3 121In(B-)121Sn 3410 50 3361 28 78Al18 R -1.0 121Sn(B-)121Sb 383 3 388.9 2.4 49Du15,68Sn01 1 2.0 121Te(B+)121Sb 1100 30 1049 25 R121Sb 121Tem 1 -1.7 121Tem(B+)121Sb 1394 30 1343 25 75Me23* R -1.7 121Tem(it)121Te 293.98 .03 NDS 2 121I(B+)121Te 2370 40 2279 27 53Fi.A,65Bu03 1 -2.3 121Xe(B+)121I 3790 100 3780 60 60Mo.A 1 -.1 4160 140 70Be62 B -2.7 121Cs(B+)121Xe 5400 20 5399 20 81So06 1 -.0 121Csm(it)121Cs 60 20 81So06,AHW 2 121Csx(it)121Cs 40 20 39 20 AHW 1 -.0 *121Tem(B+)121Sb B+/e=0.0021/8.7,New analysis 79Ta.A C8 H12 N-122Sn 193541 8 193534.1 2.9 63Da10 M16 2.5 1 -.3 C8 H12 N-122Te 193925 9 193925 3 63Da10 M16 2.5 1 -.0 122Sn 35Cl-120Sn 37Cl 4196 2 4191.4 2.7 62Ba23 H15 4.0 1 -.6 119Csx-122Csx.244 118Csx.756 -1520 150 -1546 26 83Au.B P8 1.5 1 -.1 120Csx-122Csx.492 118Csx.508 -688 28 -692 22 83Au.B P8 1.5 1 -.1 120Csx-122Csx.328 119Csx.672 350 50 347 13 82Au01 P3 1.5 1 -.0 370 13 83Au.B P8 1.5 1 -1.2 121Csx-122Csx.496 120Csx.504 -1110 30 -1159 11 83Au.B P8 1.5 1 -1.1 -1170 9 83Au.B P8 1.5 1 .8 122Sn(d,3He)121In -5910 50 -5901 28 69Co03 2 .2 -5861 43 71We01 2 -.9 122Sn(d,t)121Sn -2558.8 3.0 -2557.7 2.4 75Be09 1 .4 121Sb(n,g)122Sb 6806.2 1.0 6806.6 1.0 72Sh.A 1 .4 122In(B-)122Sn 6470 150 6370 50 71Ta07,78Al18 U -.7 122Sn(t,3He)122In -6350 50 78Aj01 2 122Sb(B-)122Te 1977 5 1983 3 55Fa33,68Hs02 1 1.3 122I(B+)122Te 4234 5 78Re.A 2 122Cs(B+)122Xe 7150 700 7380 410 75We23 3 .3 7500 500 76Da.C 3 -.2 122Csm(it)122Cs 500 300 82Au01 3 122Csn(it)122Cs 120 30 83We.1,AHW 3 122Csx(it)122Cs 100 60 82Au01,AHW 2 C8 H13 N-123Sb 200580.0 3.3 200583.5 2.4 63Da10 M16 2.5 1 .4 C8 H13 N-123Te 200538 16 200528.5 2.2 63Da10 M16 2.5 1 -.2 123Sb 35Cl-121Sb 37Cl 3343 2 3344.9 2.8 62Ba24 H14 4.0 1 .2 119Csx-123Csx.193 118Csx.807 -1490 160 -1473 30 83Au.B P8 1.5 1 .1 122Sn(n,g)123Sn 5946.2 1.5 5946.1 1.3 77Ca09,75Bh01 - -.0 122Sn(d,p)123Sn 3721.8 2.6 3721.6 1.3 75Be09 - -.1 122Sn(n,g)123Sn ave 5946.2 1.3 5946.1 1.3 average 1 -.1 123Sb(g,n)122Sb -8966 4 -8968.4 2.6 79Ba06 1 -.6 122Te(n,g)123Te 6937 5 6933.8 2.8 68Ch.A - -.6 122Te(d,p)123Te 4695 10 4709.2 2.8 67Sp09 MIT - 1.4 4706 6 75Li22 - .5 122Te(n,g)123Te ave 6932 4 6933.8 2.8 average 1 .4 122Te(3He,d)123I -574.2 3.5 -574 3 78Sz04 1 -.0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 123In(B-)123Sn 4440 60 4400 30 78Al18 R -.6 123Snm(it)123Sn 24.6 .4 NDS 2 123Sn(B-)123Sb 1399 10 1402.7 3.0 66Au04*50Ke11 - .4 1395 10 R123Sb 123Snm - .8 ave 1397 7 average 1 .8 123Snm(B-)123Sb 1420 10 1427.3 3.0 49Du15* R .7 123Xe(B+)123I 2676 15 2678 15 60Mo.A* 1 .2 123Cs(B+)123Xe 4000 140 4210 50 81So06 1 1.5 123Csm(it)123Cs 156 1 81Ma01 2 123Csx(it)123Cs 7 4 7 4 82Au01 1 .0 *123Sn(B-)123Sb Q-=1420(10,Ke). E-=310(20,Au) to 1088.6 level NDS *123Snm(B-)123Sb E-=1260(10,Du) to 160.3 level NDS *123Xe(B+)123I E+=1505(15,Mo) to 148.7 level NDS 124Sn-13C 37Cl3 4210.5 .8 4211.6 1.6 83Ba.A H39 2.5 1 .5 C7 13C H13 N-124Sn 202886 8 202880.0 1.7 63Da10 M16 2.5 U -.3 124Te-13C 37Cl3 1754.6 1.6 1755.3 1.8 83Ba.A H39 2.5 1 .2 124Te-54Fe 35Cl2 25499.5 2.7 25499.8 2.2 83Ba.A H39 2.5 1 .0 C7 13C H13 N-124Te 205336 13 205336.3 1.8 63Da10 M16 2.5 U .0 124Xe-13C 37Cl3 4831.2 1.8 4831.6 2.2 83Ba.A H39 2.5 1 .1 124Xe-54Fe 35Cl2 28575.8 1.0 28576.0 2.1 83Ba.A H39 2.5 1 .1 124Sn 35Cl-122Sn 37Cl 4784 2 4784.0 2.8 62Ba23 H15 4.0 1 .0 124Te 35Cl-122Te 37Cl 2728 2 2718 3 63Ba47 H16 4.0 1 -1.2 124Sn-124Te 2458.5 .9 2456.3 1.8 83Ba.A H39 2.5 1 -1.0 124Xe-124Te 3076.0 1.8 3076.3 2.5 83Ba.A H39 2.5 1 .1 120Csx-124Csx.194 119Csx.807 310 30 334 19 82Au01 P3 1.5 1 .5 121Csx-124Csx.244 120Csx.756 -1360 30 -1358 21 82Au01 P3 1.5 1 .0 123Csx-124Csx.744 120Csx.256 -1390 30 -1381 27 82Au01 P3 1.5 1 .2 124Sn(d,6Li)120Cd -5216 24 -5214 19 79Ja21 2 .1 124Sn(3He,7Be)120Cd -5098 30 -5101 19 76St11* 2 -.1 124Sn(d,3He)123In -6610 50 -6610 30 69Co03 2 -.1 -6572 66 71We01 2 -.6 124Sn(d,t)123Sn -2233.4 3.7 -2231.0 2.6 75Be09 1 .6 123Sb(n,g)124Sb 6467.45 .07 6467.45 0.07 81Su.A 1 .0 123Te(n,g)124Te 9424.3 1.2 9424.9 1.2 69Bu05*70Or05 1 .5 124In(B-)124Sn 7180 50 78Al18 2 124Sn(t,3He)124In -7590 50 -7160 50 78Aj01 F 8.6 124Sb(B-)124Te 2905 2 2906.2 1.8 66Ca10*69Na05 1 .6 124I(B+)124Te 3157 4 71Bo01* 2 124Csm(it)124Cs 462.2 .3 81Li08,83We.1 3 124Csx(it)124Cs 30 20 AHW * 2 *124Sn(3He,7Be)120 Calculated from given M-A=-83980(30) AHW *123Te(n,g)124Te S(n)=9425(2,Bu),9424.0(1.5,Or) AHW *124Sb(B-)124Te E-=2305(5,Hs),2301(4,Ca),2302(2,Na),to 602.72 level 65Hs02,NDS *124I(B+)124Te Original error 1.0,increased,see 84Rb(B+) AHW *124Csx(IT)124Cs Isomeric ratio assumed <.1 as in 118,120,122 AHW C7 H6 35Cl-125Te 111363 6 111374.4 2.5 63Da10 M16 2.5 1 .8 125Te 35Cl-123Te 37Cl 3090 2 3107.6 2.3 63Ba47 H16 4.0 1 2.2 122Csx-125Cs.244 121Csx.756 712 20 706 23 83Au.B P8 1.5 1 -.2 124Sn(n,g)125Sn 5732.2 1.5 5732.5 1.4 77Ca09 2 .2 124Sn(d,p)125Sn 3509.4 3.6 3507.9 1.4 75Be09 2 -.4 124Te(n,g)125Te 6569.0 3. 6571.1 1.9 71Gr.A* - .7 124Te(d,p)125Te 4344 8 4346.6 1.9 69Gr24 MIT - .3 124Te(n,g)125Te ave 6568.9 2.8 6571.1 1.9 average 1 .8 124Te(3He,d)125I 115.1 3.0 117.2 2.1 78Sz04 1 .7 124Te(a,t)125I -14203 7 -14203.3 2.1 78Sz04 U -.0 124Xe(n,g)125Xe 7603.3 .4 7603.3 0.4 82Ka.A 1 -.0 125In(B-)125Sn 5480 80 78Al18 3 125Sb(B-)125Te 766.7 2.0 66Ma49*64Ma30 2 125I(e)125Te 177.2 2. 178.1 1.8 68Go.A,69Ka08 1 .5 125Cs(B+)125Xe 3070 20 3100 17 54Ma54 1 1.5 125Ba(e)125Cs 4580 250 68Da09 2 *124Te(n,g)125Te Original error 1.0,increased,abstract only, AHW *124Te(n,g)125Te and no calibration data AHW *125Sb(B-)125Te E-=623(3,Ma4),621(3,Ma6) to 144.73 level 66Ma49 C10 H6-126Te 143623 9 143640.7 2.5 63Da10 M16 2.5 1 .8 126Te 35Cl-124Te 37Cl 3432 2 3441.6 2.1 63Ba47 H16 4.0 1 1.2 123Csx-126Cs.390 121Csx.610 -1160 30 -1152 29 82Au01 P3 1.5 1 .2 124Csx-126Cs.590 121Csx.410 -340 30 -346 22 82Au01 P3 1.5 1 -.1 124Csx-126Cs.492 122Csx.508 -570 30 -546 21 82Au01 P3 1.5 1 .5 124Csx-126Cs.328 123Csx.672 390 30 428 23 82Au01 P3 1.5 1 .9 125Cs-126Cs.496 124Csx.504 -1130 30 -1089 20 82Au01 P3 1.5 1 .9 124Sn(t,p)126Sn 5445 15 5445 11 69Bj01 2 -.0 5444 15 70Fl05 2 .0 125Te(n,g)126Te 9113.7 .4 9113.7 0.4 77Ko.A 1 .1 126In(B-)126Sn 8210 80 78Al18 3 126Inm(B-)126Sn 8060 170 78Al18* 3 126Sn(B-)126Sb 378 30 71Or04,76Sm01 3 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 126I(B+)126Te 2156 5 2156 5 59Ha27* 1 -.0 126I(B-)126Xe 1251 5 1251 5 55Ko14 1 -.0 126Cs(B+)126Xe 4790 70 4829 24 75We23*76Pa11 1 .6 *126Inm(B-)126Sn High spin state believed to be upper isomer see 120,2,4,8AHW *126I(B+)126Te From B+ to gs,388.6,879.8 levels NDS *126Cs(B+)126Xe Q+=4690(140,We),4810(100,Pa),4830(140,Cr) 76Cr.B C10 H7-127I 150297 6 150303 5 63Da10 M16 2.5 1 .4 150305.3 3.4 63Da10 M16 2.5 1 -.3 125Cs-127Cs.591 122Csx.410 -1111 9 -1125 12 83Au.B P8 1.5 1 -1.0 126Te(n,g)127Te 6289 3 6290.5 2.8 72Mu.A 1 .5 127I(g,n)126I -9135 22 -9144 6 60Ge01 PEN 1 -.4 127In(B-)127Sn 6490 70 78Al18 4 127Sn(B-)127Sb 3201 24 77Lu06 3 127Sb(B-)127Te 1581 5 67Ra13 2 127Te(B-)127I 689 7 697 5 55Da37,56Kn20 1 1.2 127Xe(e)127I 664 4 660 4 68Sc14 1 -.9 127Cs(B+)127Xe 2107 8 2092 7 67Sp08*54Ma54 1 -1.9 127Ba(B+)127Cs 3450 100 76Be11 2 *127Cs(B+)127Xe Q+=2112(10,Ma),2110(20,Sp),2083(20,We) 75We23 C10 H8-128Te 158112 9 158137 4 63Da10 M16 2.5 1 1.1 158141.2 7. 70Ke05 C3 2.5 1 -.2 C10 H8-128Xe 159068.2 4.2 159069.1 1.7 63Da10 M16 2.5 1 .1 159069.7 .7 70Ke05 C3 2.5 1 -.4 128Te 35Cl-126Te 37Cl 4106 2 4104 3 63Ba47 H16 4.0 1 -.3 4102.3 1.8 70Ke05 C3 2.5 1 .3 126Cs-128Cs.656 122Csx.344 -1130 30 -1114 23 82Au01 P3 1.5 1 .4 124Csx-128Cs.323 122Csx.678 -1070 30 -1014 23 82Au01 P3 1.5 1 1.2 126Cs-128Cs.591 123Csx.410 -350 30 -325 22 82Au01 P3 1.5 1 .6 124Csx-128Cs.194 123Csx.807 370 50 377 25 82Au01 P3 1.5 1 .1 125Cs-128Cs.244 124Csx.756 -1440 30 -1366 19 82Au01 P3 1.5 1 1.6 126Cs-128Cs.492 124Csx.508 -610 30 -558 20 82Au01 P3 1.5 1 1.1 127Cs-128Cs.661 125Cs.339 -983 12 -927 9 83Au.B P8 1.5 1 3.1 127Cs-128Cs.496 126Cs.504 -1160 30 -1108 14 82Au01 P3 1.5 1 1.2 127I(n,g)128I 6825.7 .5 6825.7 0.5 71Sc07 1 -.0 128In(B-)128Sn 9310 160 78Al18 4 128Inm(B-)128Sn 9390 220 78Al18 4 128Sn(B-)128Sb 1290 10 77Lu06,76Nu01 3 128Sb(B-)128Te 4390 40 77Lu06 2 128I(B+)128Te 1267 12 1255 5 61La16 1 -1.0 128I(B-)128Xe 2120 10 2123 4 56Be18 1 .3 128Cs(B+)128Xe 3928 6 3935 6 76Cr.B 1 1.1 128La(B+)128Ba 6600 400 66Li04 3 C10 H9-129Xe 165643.6 3.6 165645.2 2.1 63Da10 M16 2.5 1 .2 129Xe-128Xe 1247 12 1248.9 2.7 63Da10 M16 2.5 1 .1 128Cs-129Cs.661 126Cs.339 510 30 524 13 82Au01 P3 1.5 1 .3 128Te(n,g)129Te 6085 3 6086.4 2.8 72Mu.A 1 .5 129Nd(ep)128Ce 5300 300 * 78Bo.A C 129In(B-)129Sn 7600 120 78Al18 4 129Sn(B-)129Sb 4000 120 77Lu06 3 129Sb(B-)129Te 2340 30 2377 21 70Oh05 2 1.2 129Tem(it)129Te 105.5 .5 NDS 2 129Te(B-)129I 1497 6 1498 4 68Go34,64De10 - .2 1490 8 R129I 129Tem - 1.0 ave 1494 5 average 1 .7 129Tem(B-)129I 1595 8 1603 4 68Go34*56Gr10 R 1.1 129I(B-)129Xe 188 5 192 4 54De17 1 .8 129Cs(B+)129Xe 1205 20 1162 14 76Ma35 1 -2.2 129Ba(B+)129Cs 2447 15 2435 13 61Ar05 1 -.8 129La(B+)129Ba 3720 50 79Br05 2 *129Tem(B-)129I Q-=1586(5,Gr),1585(10,De),1606(4,Go) 64De10 C9 H8 N-130Te 159446 10 159445 5 63Da10 M16 2.5 1 -.0 13C1 C8 N H7-130Te 154990.6 7. 154975 5 70Ke05 C3 2.5 1 -.9 C10 H10-130Xe 174743.6 4.2 174740.9 1.7 63Da10 M16 2.5 1 -.3 13C1 C8 N H7-130Xe 157695.4 .7 157694.6 1.7 70Ke05 C3 2.5 1 -.4 130Te 35Cl-128Te 37Cl 4715 2 4716 4 63Ba47 H16 4.0 1 .1 4711.7 1.8 70Ke05 C3 2.5 1 .9 130Te-130Xe 2706.2 7. 2719 5 70Ke05 C3 2.5 1 .8 129Cs-130Csx.794 125Cs.206 -1270 40 -1274 18 82Au01 P3 1.5 1 -.1 130Ba(p,t)128Ba -9482 16 74De31 2 130Te(d,3He)129Sb -4550 30 -4513 22 68Au04 R 1.2 129Xe(n,g)130Xe 9254.7 1.3 9255.0 1.3 71Gr28,74Ge05 1 .2 129Xe(3He,d)130Cs 5 20 -42 8 81Ha08 1 -2.4 130Ba(d,t)129Ba -4001 15 -4013 13 74Gr22 1 -.8 130In(B-)130Sn 9300 500 10200# 300# 73Ke12 D 1.8 130Sn(B-)130Sbm 2140 70 77Lu06,77Nu01 3 130Sbm(it)130Sb 30 20 AHW * 3 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 130Sbm(B-)130Te 5020 100 77Lu06 2 130I(B-)130Xe 2984 10 65Da01* 2 130Cs(B+)130Xe 2990 20 3022 8 52Sm41 1 1.6 130Csm(it)130Cs 163.2 0.5 83We.1 2 130Csx(it)130Cs 27 15 34 14 82Au01,AHW 1 .5 130Cs(B-)130Ba 442 4 439 4 52Sm41 1 -.7 *130Sbm(IT)130Sb Analogy with 124,126,128 NDS *130I(B-)130Xe From B- to 1204.5,1944.0,2362.0 levels AHW...,NDS C10 H11-131Xe 180991.6 3.0 181003 5 63Da10 M16 2.5 1 1.6 131Xe-130Xe 1574 11 1563 5 63Da10 M16 2.5 1 -.4 128Cs-131Cs.391 126Cs.610 -100 30 -44 15 82Au01 P3 1.5 1 1.3 128Cs-131Cs.244 127Cs.756 782 21 756 8 83Au.A P7 1.5 1 -.8 129Cs-131Cs.328 128Cs.672 -1030 30 -904 14 82Au01 P3 1.5 1 2.8 130Te(n,g)131Te 5929.7 .5 5929.6 0.5 77Ko.A 1 -.2 130Ba(n,g)131Ba 7493.5 .3 7493.49 0.30 82Ka.A 1 -.0 131Nd(ep)130Ce 4600 400 * 78Bo.A C 131In(B-)131Sn 8820 200 80De35 4 131Sn(B-)131Sb 4645 120 79Ke02 3 131Sb(B-)131Te 3190 70 77Lu06 2 131Tem(it)131Te 182.25 .02 75Ja03 2 131Te(B-)131I 2276 9 2249 5 R131I 131Tem 1 -3.0 131Tem(B-)131I 2458 9 2431 5 61Be20,65De22 R -3.0 131I(B-)131Xe 970.9 .6 970.8 0.6 51Ve05*52Ro16 1 -.2 131Cs(e)131Xe 355 6 347 5 56Ho66*54Sa22 1 -1.4 131Ba(B+)131Cs 1372 12 1358 8 76Ge14,78Va04 1 -1.2 131La(B+)131Ba 2960 100 60Cr01* 2 131Ce(B+)131La 5220 300 3900# 200# 60Wa03 F -4.4 *131I(B-)131Xe E-=606.5(.7,Ve),605.9(1.2,Ro) to 364.5 level NDS *131Cs(e)131Xe E+=355(10,Sa),353(10,Ho),360(15,Mi) 57Mi63 *131La(B+)131Ba From unresolved B+ to various levels NDS C10 H12-132Xe 189740.8 3.3 189756 5 63Da10 M16 2.5 1 1.9 132Ba-130Ba -1241 4 -1239 8 66Be10 M17 2.5 1 .2 131Cs-132Cs.794 127Cs.206 -1127 7 -1110 8 83Au.A P7 1.5 1 1.6 131Cs-132Cs.744 128Cs.256 -1200 30 -1235 8 82Au01 P3 1.5 1 -.8 130Csx-132Cs.492 128Cs.508 -210 40 -292 17 82Au01 P3 1.5 1 -1.4 131Xe(n,g)132Xe 8936.0 1.0 8935.7 1.0 71Ge05,71Gr28 1 -.3 132Sn(B-)132Sbm 3080 40 77Al09 5 132Sbm(it)132Sb 40 30 AHW * 5 132Sbm(B-)132Te 5530 70 77Al09 4 132Te(B-)132I 493 4 65Iv01 3 132I(B-)132Xe 3580 20 61De17*65Jo13 2 132Cs(B+)132Xe 2090 25 2130 11 70Ha11* - 1.6 2110 30 70Qa03*68Ca12 - .7 2300 30 61Jh03*74Go18 B -5.7 ave 2098 19 average 1 1.7 132La(B+)132Ba 4710 50 60Wa03,67Fr02 2 *132Sbm(IT)132Sb Analogy with 124,126,128 NDS *132I(B-)132Xe E-=2156(15,De),2118(15,Jo) to 1440.27 level NDS *132Cs(B+)132Xe E+=400(35,Ha) to 667.5 level NDS *132Cs(B+)132Xe B+/e=.0038(Ca),.0037(Qa) to 667.5 level NDS *132Cs(B+)132Xe B+/e=.012(.004,Jh),.0151(.002,Gh) to same level NDS 133Cs(g,n)132Cs -8988 33 -9004 13 60Ge01 PEN 1 -.5 132Ba(d,p)133Ba 4977 15 4966 7 70Vo04 1 -.8 133Sn(B-)133Sb 7830 70 9050# 280# 83Bl.1 B 17.4 133Sb(B-)133Te 3950 200 70Ru14 5 133Tem(it)133Te 334.14 .07 NDS 5 133Te(B-)133I 2960 100 2920 70 68Mc09 4 -.4 3391 100 70Ru14* F -4.7 133Tem(B-)133I 3210 100 3250 70 68Pa03 R .4 133I(B-)133Xe 1760 30 66Ei01 3 133Xe(B-)133Cs 427.3 3. 61Er04,52Be55 2 133Ba(e)133Cs 521 3 520.5 3.0 67Sc10*69To14 1 -.2 133La(B+)133Ba 2200 200 2000# 100# 50Na09 D -1.0 *133Te(B-)133I E-=850(100,Pa) to 2540.6 level NDS *133Ba(e)133Cs L/K=0.371(7),higher values found by ref. 69Bo49,68Mc06 C10 H14-134Xe 204155.5 3.2 204155 8 63Da10 M16 2.5 1 -.0 C10 H14-134Ba 205025 20 205065 7 66Be10 M17 2.5 1 .8 134Ba-C10 H13 -197229 20 -197240 7 66Be10 M17 2.5 1 -.2 134Ba-132Ba -553 4 -556 8 66Be10 M17 2.5 1 -.3 131Cs-134Csx.244 130Csx.756 -1330 50 -1251 16 82Au01 P3 1.5 1 1.1 133Cs(n,g)134Cs 6891.75 .15 6891.75 0.15 81Bo.C 1 -.0 134Sb(B-)134Te 8410 110 79Ke02,77Lu06 4 134Te(B-)134I 1560 90 77Lu06 3 134I(B-)134Xe 4150 60 61Jo08 2 134Csm(it)134Cs 138.7 .1 75Va12 2 134Csx(it)134Cs 70 40 80 40 82Au01 1 .1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 134Cs(B-)134Ba 2058.5 .4 2058.5 0.4 68Hs01 1 -.0 134La(B+)134Ba 3700 30 65Bi12,73Al20 2 134Nd(B+)134Pr 2770 150 3200# 370# 77Ko.B C 2.9 *134Ce(e)134La Lower limit 375 76Gr09 135Ba-C10 H14 -203860 20 -203886 7 66Be10 M17 2.5 1 -.5 134Ba(n,g)135Ba 6973.2 .4 6973.2 0.4 77Ko.A 1 .0 135Te(B-)135I 5960 100 79Ke02 2 135I(B-)135Xe 2780 80 2696 21 70Ma19 - -1.1 2600 40 76Lu04 - 2.4 2733 45 76Ma.A - -.8 ave 2674 28 average 1 .8 135Xe(B-)135Cs 1160 10 1160 9 52Be55 1 -.0 135Cs(B-)135Ba 205 5 205 5 53Li01 1 -.0 135La(B+)135Ba 1200 10 71Ba18* 2 135Ce(B+)135La 2016 13 81Sa09 3 135Pr(B+)135Ce 3750 200 54Ha68* 4 *135La(B+)135Ba E/B+=14000 from reanalysis 75He.A *135Pr(B+)135Ce E+=2500(100,Ha) to 296.1 level and possibly gs NDS C10 H16-136Xe 217982. 3.9 217987 8 63Da10 M16 2.5 1 .5 136Xe(d,3He)135I -4438 30 -4413 21 71Wi04 1 .8 136Xe(d,t)135Xe -1723 20 -1736 11 68Mo21 1 -.6 135Ba(n,g)136Ba 9107.0 .8 9107.1 0.8 69Ge07*70Or05 1 .1 136Te(B-)136I 5095 90 77Sc21,79Ke02 3 136I(B-)136Xe 6925 50 79Ke.C 2 6710 50 6930 50 76Lu04* F 4.3 136Ixm(B-)136Xe 7570 102 79Ke.C 2 6670 230 7570 100 76Lu04 F 3.9 136Cs(B-)136Ba 2548.5 2.0 54Ol05* 2 136La(B+)136Ba 2870 70 59Gi50 2 136Pr(B+)136Ce 5120 20 68Zh04*71Ke07 2 136Nd(B+)136Pr 2211 25 75Br16 3 *135Ba(n,g)136Ba S(n)=9109.5(2,Or),9106.4(.8,Ge) AHW *136I(B-)136Xe Not trusted,see Ixm(B-) AHW *136Cs(B-)136Ba E-=341(2,Ol) to 2207.1 level NDS *136Pr(B+)136Ce E+=3000(75,Ke),2970(50,Zh),3020(20,Al) to 1092.3 level 83Al.B,NDS 137Ba-136Ba 1249 3 1259 4 66Be10 M17 2.5 1 1.3 137Ba-135Ba 143 3 147 4 66Be10 M17 2.5 1 .5 136Xe(n,g)137Xe 4025.5 .3 77Pr07,77Fo02 2 136Xe(3He,d)137Cs 1918 12 1926 8 81Ha08 1 .7 136Ba(n,g)137Ba 6891 5 6899 3 69Gr31 1 1.5 136Ce(n,g)137Ce 7481.5 .5 77Ko.A 2 137I(B-)137Xe 5885 80 79Ke.C 3 137Xe(B-)137Cs 4000 100 4177 8 79Ke.C U 1.8 137Cs(B-)137Ba 1175 1 1175.1 1.0 68Wo02*83Be18 1 .1 137Ce(B+)137La 1222.0 1.6 81Ar.A 3 137Pr(B+)137Ce 2702 10 73Bu17 3 137Nd(B+)137Pr 3804 40 73Bu18 4 *137Cs(B-)137Ba E-=511.63(.84,Wo),514.03(.23,Be) to 661.66 level AHW C10 H18-138Ba 235609 20 235619 6 66Be10 M17 2.5 1 .2 138Ba-137Ba -582 2 -579.7 0.8 66Be10 M17 2.5 1 .5 138Ba-136Ba 676 3 679 4 66Be10 M17 2.5 U .4 138Ce-136Ce -1158 20 -1160 50 66Be10 M17 2.5 1 .0 137Ba(n,g)138Ba 8611.2 .8 8611.3 0.8 68Ma35*70Or05 1 .2 138I(B-)138Xe 7820 70 79Ke.C 3 138Xe(B-)138Cs 2770 40 78Wo15*72Mo33 2 138Csm(it)138Cs 79.9 .3 NDS 2 138Csx(it)138Cs 40 23 30 21 82Au01 1 -.4 138Cs(B-)138Ba 5388 25 5377 22 78Wo15*81De25 1 -.5 138Pr(B+)138Ce 4437 10 71Af05 2 138Pm(B+)138Nd 6370 200 7000# 200# 81De38* B 3.2 138Pmm(B+)138Nd 7090 100 83Al06 4 *137Ba(n,g)138Ba S(n)=8611.3(.8,Ma),8610.0(1.5,Or) AHW *138Xe(B-)138Cs Q-=2830(80,Wo),E-=2270(50,Mo),2460(50,Mo), AHW *138Xe(B-)138Cs to 453 and 258+403 levels NDS *138Cs(B-)138Ba Q-=5350(80,Wo),5388(25,De) AHW *138Pm(B+)138Nd E+=3900(200,De) thought to go at least to 1451.5 4+ levelAHW 133Cs-139Cs.239 131Cs.761 -1758 24 -1774 7 83Au.A P7 1.5 1 -.4 138Csx-139Cs.496 137Cs.504 770 40 792 27 82Au01 P3 1.5 1 .4 138Ba(n,g)139Ba 4723.4 .3 4723.41 0.30 69Mo13,80Ba.A 1 .0 138La(d,p)139La 6553 3 6553.5 2.6 71Du02 TAL 2 .2 139La(d,t)138La -2522 5 -2520.7 2.6 72La20 TAL 2 .3 139I(B-)139Xe 6815 100 79Ke.C 3 139Xe(B-)139Cs 5020 60 78Wo15 2 139Cs(B-)139Ba 4213 5 4213 5 81De25 1 .0 139Ba(B-)139La 2307 5 2310 4 75Fl07 1 .5 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 139Ce(e)139La 265 5 68Ad08*75Ha43 2 139Pr(B+)139Ce 2129 3 81Ar.A 3 139Nd(B+)139Pr 2800 50 75Vy02 4 139Pm(B+)139Nd 4520 40 83Al06,77De06 5 139Sm(B+)139Pm 5430 150 82De06 6 *139Ce(e)139La From p(K)=0.735(11),average of the six most accurate 72Sc08,56Ke23 *139Ce(e)139La published values, to 165.9 level 68Va08,67Ma07 C11 H9-140Ce 164956 40 164992 4 66Be10 M17 2.5 1 .4 C11 H10-140Ce 172765 40 172817 4 66Be10 M17 2.5 1 .5 140Ce-138Ce -543 8 -551 11 66Be10 M17 2.5 1 -.4 139Cs-140Cs.883 131Cs.118 -2280 40 -2264 14 82Au01 P3 1.5 1 .3 139Cs-140Cs.869 132Cs.132 -2210 40 -2231 14 82Au01 P3 1.5 1 -.4 138Ce(t,p)140Ce 8184 15 8175 10 72Mu09 - -.6 140Ce(p,t)138Ce -8167 20 -8175 10 77Sh06 - -.4 138Ce(t,p)140Ce ave 8178 12 8175 10 average 1 -.3 139La(n,g)140La 5161 1 5161.2 0.9 70Or05*70Ju04 - .2 139La(d,p)140La 2938 3 2936.7 0.9 67Ke02 - -.4 139La(n,g)140La ave 5161.2 0.9 5161.2 0.9 average 1 .1 140Xe(B-)140Cs 4060 60 78Wo15 2 140Cs(B-)140Ba 6220 15 6218 13 81De25 1 -.1 140Ba(B-)140La 1035 10 1034 10 59Bo61*49Ly.A 1 -.1 140La(B-)140Ce 3760.6 2.0 3761.0 2.0 72Na04* 1 .2 140Pr(B+)140Ce 3388 6 68Ab17 2 140Nd(e)140Pr 150 50 220 20 72Ba91 R 1.4 140Pm(B+)140Nd 6070 40 75Ke09,83Al06 3 *139La(n,g)140La S(n)=5161.1(1.0,Ju),5161(2,Or), AHW *139La(n,g)140La S(n)=5160(1,Fu,corrected for calibration) 72Fu10 *140Ba(B-)140La Q-=1030(10,Ly),1055(20,Be),1050(50,Be) 49Be36 *140La(B-)140Ce E-=2164(2) to 1596.5 level NDS 139Cs-141Cs.789 131Cs.212 -3190 40 -3250 17 82Au01 P3 1.5 1 -1.0 140Cs-141Cs.894 131Cs.107 -970 40 -1035 21 82Au01 P3 1.5 1 -1.1 139Cs-141Cs.767 132Cs.234 -3210 40 -3167 17 82Au01 P3 1.5 1 .7 140Ce(n,g)141Ce 5428.6 .7 5428.5 0.7 70Ge03 1 -.1 141Xe(B-)141Cs 6150 90 78Wo15 2 141Cs(B-)141Ba 5252 15 5256 14 81De25* 1 .3 141Ba(B-)141La 3208 35 3230 27 81De25 1 .6 141La(B-)141Ce 2430 30 2446 25 51Du19 1 .5 141Ce(B-)141Pr 581.5 1.3 581.3 1.3 68Be06*55Jo02 1 -.2 141Nd(B+)141Pr 1816 9 1814 8 73Bu21 2 -.2 141Pm(B+)141Nd 3730 40 3735 30 70Ch29 3 .1 141Sm(B+)141Pm 4530 45 4540 30 77Ke03*83Al06 R .1 141Eu(B+)141Sm 5960 40 77De25,83Al06 3 *141Cs(B-)141Ba Highest B- assumed to feed 48 level 81De25 *141Ce(B-)141Pr Q-=584(3,Fr),586(4,Ko),576(2,Jo),581(2,Be), 52Ko27,50Fr58 *141Ce(B-)141Pr 582(2.6,Ha) 79Ha04 *141Sm(B+)141Pm Q+=4500(40,Ke), 4700(60,De) from 175.8 isomer, 77De25,AHW *141Sm(B+)141Pm E+=3020(60,Al) to 403.8,438.2 levels AHW...,NDS C11 H10-142Ce 168955 40 169009 4 66Be10 M17 2.5 1 .5 142Ce-C11 H9 -161176 40 -161184 4 66Be10 M17 2.5 1 -.1 142Nd-C11 H9 -162665 30 -162706 4 66Be10 M17 2.5 1 -.5 142Ce-140Ce 3818 3 3808 3 66Be10 M17 2.5 1 -1.3 139Cs-142Cs.685 132Cs.316 -4840 40 -4819 21 82Au01 P3 1.5 1 .4 140Cs-142Cs.789 132Cs.212 -2950 40 -2903 26 82Au01 P3 1.5 1 .8 141Cs-142Cs.794 137Cs.206 -580 40 -635 17 82Au01 P3 1.5 1 -.9 138Csx-142Cs.194 137Cs.806 550 40 593 27 82Au01 P3 1.5 1 .7 140Cs-142Cs.329 139Cs.671 260 40 308 17 82Au01 P3 1.5 1 .8 141Cs-142Cs.662 139Cs.338 -410 40 -503 15 82Au01 P3 1.5 1 -1.5 141Cs-142Cs.496 140Cs.504 -640 40 -656 15 82Au01 P3 1.5 1 -.3 -662 18 83Au.A P7 1.5 1 .2 140Ce(t,p)142Ce 4112 5 4113.8 2.9 72Mu09 1 .4 142Nd(p,t)140Nd -9150 20 -9139 19 71Ya10 2 .6 141Pr(n,g)142Pr 5843.14 .10 5843.14 0.10 81Ke11 1 -.0 142Xe(B-)142Cs 5040 100 78Wo15 2 142Cs(B-)142Ba 7320 20 7317 20 81De25,82Pa24 1 -.2 142Ba(B-)142La 2200 100 2120 40 62Fr04 1 -.8 142La(B-)142Ce 4517 6 4517 6 65Pr03 1 -.0 142Pr(B-)142Nd 2162 3 2160.4 2.4 66Be12,75Ra09 1 -.5 142Pm(B+)142Nd 4860 60 4890 50 60Ma.A,83Al06 2 .5 142Sm(B+)142Pm 2050 70 2090 50 60Ma.A R .5 142Eu(B+)142Sm 8000 300 7400 100 75Ke08 D -2.0 7400 100 82Gr.A 3 142Eum(B+)142Sm 8170 50 75Ke08,83Al06 3 143Nd 35Cl-141Pr 37Cl 5116 4 5114.0 2.6 70Ma05* H21 2.5 1 -.2 143Nd-C11 H10 -168422 30 -168440 4 66Be10 M17 2.5 1 -.2 143Nd-C11 H9 -160594 30 -160615 4 66Be10 M17 2.5 1 -.3 141Cs-143Cs.493 139Cs.507 -230 40 -169 19 82Au01 P3 1.5 1 1.0 -169 22 83Au.A P7 1.5 1 -.0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 142Cs-143Cs.497 141Cs.504 646 15 660 17 83Au.A P7 1.5 1 .6 143Nd(p,t)141Nd -7450 20 -7459 9 71Ya10 R -.5 142Ce(n,g)143Ce 5145.0 .3 5145.02 0.30 76Ge02,80Ba.A 1 .1 142Nd(n,g)143Nd 6123.62 .13 6123.62 0.13 82Is05 1 -.0 142Nd(3He,d)143Pm -1196 5 -1195.1 2.9 80St10* 1 .2 143Cs(B-)143Ba 6280 40 6280 40 81De25*82Pa24 1 -.0 143Ba(B-)143La 4250 40 4250 40 79Sc11,81Ke07 1 -.0 143La(B-)143Ce 3300 70 3290 50 61Fr06,81Ya06 1 -.1 143Ce(B-)143Pr 1460.6 2. 1461.6 1.9 77Ra18 1 .5 143Pr(B-)143Nd 933.5 2. 934.5 1.9 49Fe18,76Ra33 1 .5 143Sm(B+)143Pm 3437 30 3443 11 83Al06 U .2 143Eu(B+)143Sm 5150 40 74Ch21*83Al06 3 *143Nd 35Cl-141Pr Increased by 5 for systematic diff.H21 with later data AHW *142Nd(3He,d)143Pm Based on 146Nd(3He,d)147Pm Q=-89(1),from (n,g) and Q- AHW *143Cs(B-)143Ba Highest B- assumed to feed 195 level 81De25 *143Eu(B+)143Sm Q+=5100(50,Ch),5240(70,Al),5160(60,Ve) 83Ve.A 144Sm-144Nd 1911.9 1.1 1914.5 2.3 72Ba08 H25 2.5 1 .9 142Cs-144Cs.592 139Cs.409 -60 40 -41 25 82Au01 P3 1.5 1 .3 143Cs-144Cs.745 140Cs.255 -920 50 -903 23 82Au01 P3 1.5 1 .2 142Cs-144Cs.329 141Cs.671 290 40 270 17 82Au01 P3 1.5 1 -.3 143Cs-144Cs.662 141Cs.338 -654 21 -634 21 83Au.A P7 1.5 1 .6 143Cs-144Cs.497 142Cs.504 -790 50 -705 19 82Au01 P3 1.5 1 1.1 144Sm(3He,6He)141Sm -8693 12 78Pa11 2 144Sm(p,t)142Sm -10649 15 73Oe02 2 143Nd(n,g)144Nd 7817.11 .12 7817.10 0.12 82Is05 1 -.1 143Nd(3He,d)144Pm -805 5 -792.2 2.7 80St10* 1 2.6 143Pm(n,g)144Pm 6525.7 3. 6526.5 2.6 75Ma04* 1 .3 144Sm(d,t)143Sm -4262 10 72Ja28 2 144Cs(B-)144Ba 8500 60 8470 60 81De25*82Pa24 1 -.5 144Ba(B-)144La 3060 100 2970 90 78St03 1 -.9 144La(B-)144Ce 5880 180 5600 110 78St03* 1 -1.6 4300 100 79Ik07* F 13.0 144Ce(B-)144Pr 318.6 2. 318.6 2.0 66Da04*76Ra33 1 -.0 144Pr(B-)144Nd 2997 3 2996.9 3.0 59Po77,66Da04 1 -.0 144Eu(B+)144Sm 6330 30 6329 21 83Al06 2 -.0 144Sm(p,n)144Eu -7110.0 30. -7111 21 65Me12 2 -.0 144Gd(B+)144Eu 4300 400 3700# 300# 70Ar04* D -1.5 *143Nd(3He,d)144Pm Based on 146Nd(3He,d)147Pm Q=-89(1),from (n,g) and Q- AHW *143Pm(n,g)144Pm From 142Nd(n,g) and Nd(3He,d)Pm Q(144)-Q(143)=402.7(1.6) AHW *144Cs(B-)144Ba Q-=8450(30,De),8560(80,Pa) AHW *144La(B-)144Ce Original value 5435(120) corrected by ref. 82Mi01 *144La(B-)144Ce Disagrees badly with systematics AHW *144Ce(B-)144Pr Q-=320(1,Da),315.6(1.5,Ra),not nice AHW *144Gd(B+)144Eu Same author finds 145Gd(B+) high too AHW 145Nd 35Cl2-141Pr 37Cl2 10828 7 10823.3 2.7 70Ma05* H21 2.5 1 -.3 142Cs-145Cs.490 139Cs.511 240 50 180 30 82Au01 P3 1.5 1 -.9 144Cs-145Cs.828 139Cs.173 450 50 441 26 82Au01 P3 1.5 1 -.1 143Cs-145Cs.592 140Cs.409 -700 80 -605 30 82Au01 P3 1.5 1 .8 143Cs-145Cs.493 141Cs.507 -310 40 -315 25 82Au01 P3 1.5 1 -.1 144Cs-145Cs.662 142Cs.338 323 19 336 22 83Au.A P7 1.5 1 .5 144Cs-145Cs.497 143Cs.503 600 40 637 19 82Au01 P3 1.5 1 .6 144Nd(n,g)145Nd 5755.7 .7 5755.4 0.7 75Na.A,77Mc09 1 -.4 144Nd(3He,d)145Pm -681 5 -681.9 2.5 80St10* 1 -.2 144Pm(n,g)145Pm 7922 3 7927.4 2.5 75Ma04* 1 1.8 144Sm(n,g)145Sm 6757.1 .3 6757.07 0.30 79Wa22 1 -.1 144Sm(3He,d)145Eu -2184 4 -2181.0 2.8 82Sc25 2 .7 -2178 4 83Ru.A 2 -.8 145Dy(ep)144Gd 6000 500 * 83La.A* U 145Cs(B-)145Ba 7760 200 7790 130 81De25*82Pa24 1 .2 145Ba(B-)145La 4935 120 4950 110 78Pf02 1 .1 145La(B-)145Ce 4110 100 4120 90 78St03 1 .1 145Ce(B-)145Pr 2530 50 2530 50 67Ho19*78St03 1 .0 145Pr(B-)145Nd 1805 10 1805 7 59Dr.A 1 .0 145Pm(e)145Nd 152 4 161.4 2.5 59Br65*74To04 1 2.4 145Sm(e)145Pm 619 7 620 3 71My01*83Vo.1 1 .2 145Eu(B+)145Sm 2660 11 2662.2 2.8 66Zh01*67Hi05 U .2 145Gd(B+)145Eu 5050 50 79Fi07*83Ve.A 3 *145Nd 35Cl2-141Pr Increased by 10 for systematic diff.H21 with later data AHW *144Nd(3He,d)145Pm Based on 146Nd(3He,d)147Pm Q=-89(1),from (n,g) and Q- AHW *144Pm(n,g)145Pm From 143Nd(n,g) and Nd(3He,d)Pm Q(145)-Q(144)=105.2(1.6) AHW *145Dy(ep)144Gd As read from graph AHW *145Cs(B-)145Ba Q-=7358(70,De),7950(80,Pa),bad case AHW *145Ce(B-)145Pr Q-=2490(100,Ho)2535(70,St)2600(100,Ya)2500(100,Eb) 81Eb01,80Ya07 *145Pm(e)145Nd e(K)/e=.606(.025,To),.54(.02,Br) to 67.2 level AHW *145Sm(e)145Pm Q-=607(10,My),622(5,Vo) AHW *145Eu(B+)145Sm E+=800(40,Zh),786(40,Hi),780(30,Ob),731(12,Sc), 83Sc28,67Ob03 *145Eu(B+)145Sm 794(15,Ad,not used) to 893.6 level. 68Ad04,NDS *145Gd(B+)145Eu Q+=5070(60,Fi),5010(90,Ve) AHW 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 146Nd 35Cl-144Nd 37Cl 5982.8 1.1 5979.7 0.7 72Ba08 H25 2.5 1 -1.1 145Cs-146Cs.828 140Cs.173 -580 80 -800 40 82Au01 P3 1.5 1 -1.8 144Cs-146Cs.329 143Cs.671 320 50 406 26 82Au01 P3 1.5 1 1.1 145Cs-146Cs.662 143Cs.338 -483 29 -465 30 83Au.A P7 1.5 1 .4 145Cs-146Cs.497 144Cs.503 -697 24 -675 23 83Au.A P7 1.5 1 .6 144Sm(t,p)146Sm 6681 25 6678 6 66Bj01 1 -.1 144Sm(3He,n)146Gd 977 30 986 10 79Al07 - .3 144Sm(12C,10Be)146Gd -18476 25 -18481 10 80Pa07* - -.2 144Sm(3He,n)146Gd ave 985 19 986 10 average 1 .0 146Nd(d,3He)145Pr -3095 10 -3095 7 79Sa.A 1 .0 145Nd(n,g)146Nd 7565.28 .14 7565.28 0.14 82Is05 1 .0 146Cs(B-)146Ba 9340 100 9410 90 82Pa24 1 .7 146Ba(B-)146La 4140 140 4270 110 79Ke02*81De25 1 1.0 146Lam(it)146La 190 150 79Ke02* 2 146La(B-)146Ce 6660 120 6386 30 79Ke02 F -2.3 6175 100 81De25 U 2.1 6380 30 82Br23 1 .2 146Ce(B-)146Pr 1000 60 1020 60 80Ya07*54Be10 1 .4 146Pr(B-)146Nd 4120 70 4150 70 65Ra02*68Da13 1 .5 146Pm(B-)146Sm 1542 3 74Sc06 2 146Eu(B+)146Sm 3872 9 3877 8 62Fu16,64Ta11 1 .6 146Gd(B+)146Eu 1000 30 1014 13 81Ka07 1 .5 146Tb(B+)146Gd 8240 150 83Al06 2 *144Sm(12C,10Be)14 Calculated from given M-A=-76096(25) AHW *146Ba(B-)146La Q-=4000(100,Ke),4280(100,De),bad case AHW *146Lam(IT)146La From Q-(m)=6850(100),Q-(g)=6660(120) 79Ke02,AHW *146Ce(B-)146Pr Q-=955(50,Ya),1100(80,Be),1065(100,Eb) 81Eb01 *146Pr(B-)146Nd E-=3700(200,Be),3800(200,Ra),3600(100,Da), 54Be10 *146Pr(B-)146Nd 3700(100,Ik), to 453.8 level 78Ik03,NDS 145Cs-147Cs.705 140Cs.296 -170 170 -500 50 82Au01 P3 1.5 1 -1.3 144Cs-147Cs.490 141Cs.511 80 250 340 40 82Au01 P3 1.5 1 .7 145Cs-147Cs.493 143Cs.507 -54 19 -50 28 83Au.A P7 1.5 1 .2 147Eu(a)143Pm 2987.5 5. 2989 3 62Si14*79Rytz 1 .3 144Sm(12C,9Be)147Gd -17832 30 -17817 23 80Pa07* 1 .5 144Sm(14N,11Be)147Tb -28255 44 -28324 28 83Gy.A 1 -1.6 147Sm(p,t)145Sm -6287 8 -6277.3 2.3 72De47 1 1.2 146Nd(n,g)147Nd 5292.19 .15 5292.21 0.15 75Ro16 1 .2 147Sm(d,t)146Sm -98 10 -99 5 75Si03 1 -.1 147Dy(ep)146Gd 4800 900 4240 70 83La.A* U -.6 147Er(ep)146Dy 7000 900 * 83La.A* U 147Tm(p)146Er 1062.2 6. * 82Kl03 U 147La(B-)147Ce 4750 120 5190# 310# 78St03 B 3.7 147Ce(B-)147Pr 3310 70 78St03 3 147Pr(B-)147Nd 2770 100 2680 40 81Ya06 2 -.9 147Nd(B-)147Pm 894.5 1.0 895.3 0.9 67Ca18 1 .8 147Pm(B-)147Sm 224.5 .4 224.6 0.4 66Hs01,58Ha32 1 .3 147Eu(B+)147Sm 1723 3 1720.9 2.5 80Bu04 1 -.7 147Gd(B+)147Eu 2185 5 2051 23 80Vy01 F -26.9 2090 45 81Sc.B 1 -.9 147Tb(B+)147Gd 5120 120 4544 24 82Ve.A C -4.8 4589 30 83Sc.A 1 -1.5 147Tbm(B+)147Gd 4500 100 4650 30 83Sc.A C 1.5 147Tbm(it)147Tb 122 34 106 29 83Gy.A 1 -.5 147Dym(B+)147Tbm 7035 60 83Al06 2 147Dym(it)147Dy 750.7 0.3 NDS 3 *147Eu(a)143Pm E(a)=2906(5,Go),2909(10,Si) 67Go32 *144Sm(12C,9Be)147 Calculated from given M-A=-75480(30) AHW *147Dy(ep)146Gd As read from graph AHW *147Er(ep)146Dy As read from graph AHW 148Nd 35Cl2-144Nd 37Cl2 12703.6 2.1 12705.9 1.9 72Ba08 H25 2.5 1 .4 148Sm 35Cl2-144Sm 37Cl2 8721.4 2.6 8721.2 2.5 72Ba08 H25 2.5 1 -.0 148Nd 35Cl-146Nd 37Cl 6725.7 .9 6726.2 1.7 73Me28 H26 2.5 1 .2 145Cs-148Cs.392 143Cs.608 -370 90 -370 130 83Au.A P7 1.5 1 -.0 148Eu(a)144Pm 2703.2 30. 2733 21 64To04 R 1.0 148Gd(a)144Sm 3271.31 .05 3271.24 0.03 73Go29,79Rytz 1 -.0 148Sm(p,t)146Sm -6011 8 -6016 5 72De47 - -.6 -6018 15 74Oe03 - .2 ave -6013 7 average 1 -.4 148Gd(p,t)146Gd -7844 14 -7839 10 83Fl05 1 .4 148Nd(d,3He)147Pr -3726 40 -3740 40 79Sa.A* R -.4 148Nd(d,t)147Nd -1072 4 -1075.8 1.6 77St22 1 -1.0 147Sm(n,g)148Sm 8141.6 .6 8141.4 0.6 70Bu19*69Re04 1 -.3 148La(B-)148Ce 5862 100 6500# 300# 82Br23* F 6.4 148Ce(B-)148Pr 2050 100 78St03 3 148Pr(B-)148Nd 4960 100 78St03,76Ya06 2 148Pm(B-)148Sm 2485 20 2473 14 62Sc04,63Ba31 2 -.6 148Eu(B+)148Sm 3110 30 3080 21 63Ba32,70Ag01 2 -1.0 148Tb(B+)148Gd 5610 40 75Py.A,82Ve.A 2 5205 40 5610 40 83Sc.A C 10.1 148Tbm(B+)148Gd 5870 80 5660 90 82Ve.A 2 -2.6 5715 50 83Sc.A 2 -1.1 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 148Dy(B+)148Tb 2690 40 83Sc.A*81Sp03 3 *148Nd(d,3He)147Pr Calculated from given M-A=-75476(40) AHW *147Sm(n,g)148Sm S(n)=8140.0(1.2,Re),8140.6(1.8,Bu),8142.6(1.0,Gr) 71Gr37 *148La(B-)148Ce Possibly lower limit 82Br23 *148Dy(B+)148Tb E+=1163(60,Sp),1020(30,Sc),1055(60,Al), 82Al.A *148Dy(B+)148Tb to 620.2 level NDS 149Sm 35Cl-147Sm 37Cl 5239.8 .8 5236.3 0.9 75Ka25 M21 2.5 1 -1.7 149Gd(a)145Sm 3099.4 4. 3104 4 67Go32,79Rytz 1 1.0 149Tb(a)145Eu 4077.7 3. 67Go32*79Rytz 3 149Tbm(a)145Eu 4109.5 7. 74To07 3 149Sm(n,a)146Nd 9429 4 9435.2 1.2 67Oa01 1 1.6 148Nd(n,g)149Nd 5038.83 .10 5038.83 0.10 76Pi04 1 .0 148Nd(3He,d)149Pm 450 5 451 3 80St10* 1 .2 148Sm(n,g)149Sm 5872.5 1.0 5871.7 0.7 70Sm.A 1 -.8 149Er(ep)148Dy 6500 900 * 83La.A* U 149Ce(B-)149Pr 4185 80 3700# 300# 79Ke.C C -6.1 149Nd(B-)149Pm 1669 10 1688 3 64Go08 1 1.9 149Pm(B-)149Sm 1067 5 1073 4 60Ar05*78Re01 1 1.2 149Tb(B+)149Gd 3660 50 3636 6 83Sc.A U -.5 149Dy(B+)149Tb 3930 120 3600# 200# 83Ve.A C -2.7 149Ho(B+)149Dy 6040 50 83Al06 5 *149Tb(a)145Eu E(a)=3965(3,Go),3963(10,Ho),3972(5,Bo) 81Ho.A,82Bo04 *148Nd(3He,d)149Pm Based on 146Nd(3He,d)147Pm Q=-89(1),from (n,g) and Q- AHW *149Er(ep)148Dy As read from graph AHW *149Pm(B-)149Sm Q-=1062(2,Ar),1072(2,Re),bad case 60Ar05,78Re01 150Nd 35Cl2-146Nd 37Cl2 13672.5 1.8 13674.4 2.4 72Ba08 H25 2.5 1 .4 150Sm 35Cl-148Sm 37Cl 5404.8 .6 5403.7 0.9 75Ka25 M21 2.5 1 -.7 150Nd-150Sm 3617.0 1.2 3614.7 2.3 72Ba08 H25 2.5 1 -.8 150Nd-148Nd 3988 3 3998.1 2.8 66Be10 M17 2.5 1 1.4 150Gd(a)146Sm 2799.8 10. 2800 7 62Si14,65Og01 1 .0 150Tb(a)146Eu 3585.8 5. 3587 5 79Rytz,67Go32 1 .3 150Dy(a)146Gd 4350.2 2. 4350.1 2.1 67Go32*79Rytz 1 -.0 150Nd(d,3He)149Pr -4501 10 79Sa.A* 2 150Nd(d,t)149Nd -1122 10 -1122.4 2.6 73Bu02 1 -.0 149Sm(n,g)150Sm 7985.6 .8 7985.5 0.7 69Re04,70Bu19 1 -.1 150Ce(B-)150Pr 3080 100 79Ke.C 3 150Pr(B-)150Nd 5705 90 5100# 200# 70Wa37,79Ke.C B -6.7 150Pm(B-)150Sm 3454 20 77Ho09 2 150Eum(B+)150Sm 2264 25 2305 7 65Gu03 1 1.6 150Eum(it)150Eu 42.1 .5 42.1 0.5 82So.B 1 -.1 150Eum(B-)150Gd 1010 4 1011 4 65Gu03,63Yo07 1 .2 150Tb(B+)150Gd 4730 40 4664 12 68Wi21*77Ha31 1 -1.6 150Dy(B+)150Tb 1760 40 1777 14 81Ka07 1 .4 150Hom(B+)150Dy 7360 50 83Al06 2 6634 80 7360 50 83Sc.A C 9.1 150Er(B+)150Ho 4010 80 4200# 200# 82No08 C 2.4 *150Dy(a)146Gd E(a)=4236(2,De),4232(5,Ho),4232(3,Go) 82De11,81Ho.A *150Dy(a)146Gd E(a)=4233(3,Bo) 82Bo04 *150Nd(d,3He)149Pr Calculated from given M-A=-70977(10) AHW *150Tb(B+)150Gd Q+=4710(40,Wi),4760(35,Ha),last error thought low AHW 151Eu 35Cl-149Sm 37Cl 5620.3 2.6 5616.4 1.2 72Ba08 H25 2.5 1 -.6 151Tb(a)147Eu 3500.9 4. 3498 3 67Go32,79Rytz 1 -.7 151Dy(a)147Gd 4178.0 3. 4178 3 67Go32*79Rytz 1 .0 151Ho(a)147Tb 4732.6 3. 82De11*82Bo04 2 151Hom(a)147Tbm 4642.2 2. 4642.1 2.1 82De11*82Bo04 1 -.0 151Eu(n,a)148Pm 7870 20 7857 14 74Em01 R -.6 151Eu(p,t)149Eu -5872 5 75Ta12 2 150Nd(n,g)151Nd 5334.6 .2 76Pi13 2 150Nd(3He,d)151Pm 1502 5 1502 4 80St10* 1 -.1 150Sm(n,g)151Sm 5596.2 1.0 5597.3 0.8 71Gr22*70Sm.A 1 1.1 151Eu(p,d)150Eu -5721 9 -5712 7 82So.B 1 1.0 151Lu(p)150Yb 1239.2 3. * 82Ho04* U 151Pm(B-)151Sm 1188 10 1187 5 64Be10 1 -.1 151Sm(B-)151Eu 75.9 .6 76.3 0.6 59Ac28 1 .7 151Gd(e)151Eu 463 3 464.7 2.7 83Vo.1 1 .6 151Tb(B+)151Gd 2562 5 2566 4 77Cr05 1 .8 151Hom(B+)151Dy 5080 50 5110 30 83Al06* 1 .7 *151Dy(a)147Gd E(a)=4067(3,Bo),4068(10,Ho),4065(5,Go) 81Ho.A,82Bo04 *151Ho(a)147Tb E(a)=4607(3,Bo),4608(4,De) AHW *151Hom(a)147Tbm E(a)=4517(3,Bo),4521(3,De),4519(5,Ho) 81Ho.A *150Nd(3He,d)151Pm Based on 146Nd(3He,d)147Pm Q=-89(1),from (n,g) and Q- AHW *150Sm(n,g)151Sm S(n)=5596(1.5,Gr),5591.7(1.5,Sm)+4.83 NDS *151Lu(p)150Yb Possibly 11/2- isomer 82Ho04 *151Hom(B+)151Dy E+=3530(50) to 527.4 11/2- state AHW...,NDS C12 H8-152Sm 142867.0 5.0 142872 4 75Ka25 M22 2.5 1 .4 152Sm 35Cl2-148Sm 37Cl2 10807.9 1.4 10809.6 1.3 75Ka25 M21 2.5 1 .5 10810.8 2.0 72Ba08 H25 2.5 1 -.2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 152Sm 35Cl-150Sm 37Cl 5402.7 .8 5405.9 1.0 75Ka25 M21 2.5 1 1.6 152Dy(a)148Gd 3726.3 4. 65Ma51*79Rytz 2 152Ho(a)148Tb 4506.8 50. 82De11*82Bo04 3 152Hom(a)148Tbm 4573.5 3. 82Bo04 3 152Er(a)148Dy 4933.1 2. 82De11*82Bo04 4 150Nd(t,p)152Nd 4125 30 72Ch11 2 151Sm(n,g)152Sm 8258 1 8257.9 0.8 71Gr22 1 -.1 151Eu(n,g)152Eu 6305.2 .5 6305.5 0.5 78Vo05 1 .6 152Gd(d,t)151Gd -2338 10 -2335 3 67Tj01 KOP 1 .3 152Pm(B-)152Sm 3500 75 72Wa04*71Da19 2 152Eu(B+)152Sm 1873.3 1.5 1876.1 0.9 72Sv02*77Mi.A 1 1.9 152Eu(B-)152Gd 1827 7 1822.1 1.8 60La04,60Sc14 1 -.7 152Tb(B+)152Gd 3850 15 76Cr.B 2 152Hom(B+)152Dy 6370 50 6510 90 83Sc.A R 2.7 6850 100 83Al06* C -3.4 *152Dy(a)148Gd E(a)=3630(8,Ma),3628(5,Go) 67Go32 *152Ho(a)148Tb E(a)=4389(2,De),4387(3,Bo),4387(3,To) 82To14 *152Er(a)148Dy E(a)=4804(2,De),4805(5,Ho),4799(3,Bo) 81Ho.A *152Pm(B-)152Sm Q-=3600(200,Da)3400(200,Wa),3400(200,Wi)3500(100,Ya) 75Wi08,77Ya07 *152Eu(B+)152Sm E+=727(2,Sv),729(1.5,Mi) to 122.78 level NDS *152Hom(B+)152Dy E+=3390(100,Al) to 2438.1 8+ level AHW...,NDS 153Eu 35Cl-151Eu 37Cl 4334 4 4328.8 2.6 70Ma05* H21 2.5 1 -.5 153Dy(a)149Gd 3556.2 4. 3560 4 67Go32*79Rytz 1 1.0 153Ho(a)149Tbm 4015.2 5. 71To01 4 153Hom(a)149Tb 4115.8 5. 68Go.B,79Rytz 4 153Er(a)149Dy 4800.8 50. 82De11*81Ho.A 5 153Tm(a)149Ho 5247.5 50. 81Ho.A*82De11 6 153Gd(n,a)150Sm 9790 30 9812.4 1.8 81Wa31 U .7 153Eu(p,t)151Eu -6374 5 -6376.6 2.4 75Ta12 1 -.5 152Sm(n,g)153Sm 5867.6 .4 5867.6 0.4 69Re04*71Be41 1 .1 152Gd(n,g)153Gd 6247.0 .2 6246.99 0.20 81Sp.A 1 -.0 152Gd(3He,d)153Tb -1634 30 -1608 4 76St10 U .9 153Sm(B-)153Eu 804 5 809.2 2.4 54Le08*57Jo24 1 1.0 153Gd(e)153Eu 242 2 483.9 2.3 62Bl11*64Cr08 F 121.0 153Tb(B+)153Gd 1585 5 1579 4 78Cr02 1 -1.3 153Dy(B+)153Tb 2171 2 2170.0 1.9 78Gr13 1 -.5 2250 50 77De05 U -1.6 153Ho(B+)153Dy 4153 50 4123 10 83Al06 U -.6 *153Eu 35Cl-151Eu Increased by 5 for systematic diff.H21 with later data AHW *153Dy(a)149Gd E(a)=3467(8,Ma),3462(5,Go) 65Ma51 *153Er(a)149Dy E(a)=4676(2,De),4674(10,Ho),4671(3,Bo) 82Bo04 *153Tm(a)149Ho E(a)=5111(2,De),5109(5,Ho),5103(3,Bo) 82Bo04 *152Sm(n,g)153Sm S(n)=5867.2(.4,Re),5867.9(.3,Be), AHW *152Sm(n,g)153Sm including corrections +.2, -.3 for calibration AHW *153Sm(B-)153Eu Q-=810(10,Gr),795(10,Le),820(10,Ma),792(10,Jo) 55Ma62,54Gr19 *153Gd(e)153Eu K/e=.42(.03,Bl),.38(.03,Cr),.31(.07,Bo),.34(.04,Se), 80Se01,67Bo11 *153Gd(e)153Eu to 172.9 level AHW *153Gd(e)153Eu Four precise reaction data yield 477(5) AHW C12 H10-154Sm 156035.7 4.0 156045 4 75Ka25 M22 2.5 1 .9 154Sm 35Cl2-150Sm 37Cl2 10832.9 5.2 10832.9 1.4 75Ka25 M21 2.5 1 .0 154Sm 35Cl-152Sm 37Cl 5427.2 .4 5427.0 1.0 75Ka25 M21 2.5 1 -.2 154Sm-154Gd 1342.8 .8 1344.0 1.6 75Ka25 M21 2.5 1 .6 154Sm-C12 H9 -148211.0 8.0 -148220 4 75Ka25 M21 2.5 1 -.5 154Dy(a)150Gd 2946.7 5. 67Go32,79Rytz 2 154Ho(a)150Tb 4040.2 4. 79Rytz*68Go.C 2 154Hom(a)150Tbm 3820.4 50. 71To01*79Rytz 4 154Er(a)150Dy 4277.3 3. 82Bo04 2 154Tm(a)150Ho 5169.5 50. 81Ho.A*82De11 3 154Tmm(a)150Hom 5088.3 50. 81Ho.A*82Bo04 3 154Yb(a)150Er 5474.5 2. 81Ho.A,82De11 4 154Sm(d,3He)153Pm -3623 25 -3592 16 76Su.B 2 1.2 154Sm(t,a)153Pm 10748 20 10728 16 78Bu18 2 -1.0 153Eu(n,g)154Eu 6439.2 3. 6441.7 2.3 67Sh.A,77St14 1 .8 153Gd(n,g)154Gd 8894.5 .3 8894.47 0.30 81Sp.A 1 -.1 154Pm(B-)154Sm 4000 100 71Da28*72Ta13 2 154Eu(B-)154Gd 1969 2 1968.9 1.6 60La04*77Ra08 1 -.1 154Tb(B+)154Gd 3562 50 70Ag03* 2 154Ho(B+)154Dy 5700 80 5758 13 83Al06 U .7 154Hom(B+)154Dy 6000 100 83Al06* 3 *154Ho(a)150Tb E(a)=3933(5,Go),3937(5,Sc) 74Sc19 *154Hom(a)150Tbm E(a)=3720(10,To),3721(5,Sc) 74Sc19 *154Tm(a)150Ho E(a)=5037(2,De),5035(5,Ho),5030(3,Bo) 82Bo04 *154Tmm(a)150Hom E(a)=4959(5,Ho),4955(3,Bo) AHW *154Pm(B-)154Sm Q-=3900(200,Da),4190(170,Ta),4000(200,Pr),3900(200,Ya) 73Pr05,74Ya07 *154Eu(B-)154Gd Q-=1967(2,Ra),1978(5,La) AHW *154Tb(B+)154Gd gs transition 73Ba20 *154Hom(B+)154Dy E+=2500(100) to 2473.4 level AHW...,NDS 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 155Gd 35Cl3-149Sm 37Cl3 14282.4 6.3 14287.4 2.0 75Ka25 M21 2.5 1 .3 155Gd 35Cl-153Eu 37Cl 4345.4 2.4 4342.2 2.5 72Ba08 H25 2.5 1 -.5 155Er(a)151Dy 4118.5 50. 74To07,79Rytz 2 155Tm(a)151Ho 4568.1 10. 71To01 3 155Yb(a)151Er 5335.9 50. 81Ho.A*82Bo04 3 155Lu(a)151Tm 5806.1 50. 79Ho10 4 155Gd(n,a)152Sm 8331 6 8337.7 1.6 69Be17 1 1.1 154Sm(n,g)155Sm 5807.2 .3 5807.20 0.30 82Sc03 1 -.0 154Eu(n,g)155Eu 8151.6 .4 8151.6 0.4 77Pr.A 1 .1 154Gd(n,g)155Gd 6435.3 .4 6435.4 0.4 79St.A 1 .3 155Sm(B-)155Eu 1629 11 1627.5 2.1 65Fu13,63Kr04 1 -.1 155Eu(B-)155Gd 248 4 252.7 1.7 54Le08*58Gl56 1 1.2 155Dy(B+)155Tb 2094 2 63Pe13,80Bu04 3 155Ho(B+)155Dy 3102 20 72To07 3 *155Yb(a)151Er E(a)=5206(5,Ho),5191(5,Bo) AHW *155Eu(B-)155Gd Q-=252(5,Le),245(5,Gl),245(5,Am) 59Am16 156Gd 35Cl-154Gd 37Cl 4204.8 1.4 4207.1 0.4 72Ba08 H25 2.5 1 .7 4203.0 1.0 75Ka25 M21 2.5 1 1.6 156Tm(a)152Ho 4341.5 50. 71To10,81Ga36 4 156Tmm(a)152Hom 4577.5 10. 71To01 4 156Yb(a)152Er 4811.6 7. 79Ho10,77Ha48 5 156Lu(a)152Tm 5593.7 50. 79Ho10 5 156Hf(a)152Yb 6033.0 10. 79Ho10 6 154Sm(t,p)156Sm 4556 25 4575 13 66Bj01 1 .7 155Gd(n,g)156Gd 8536.39 .12 8536.40 0.12 82Is05 1 .1 155Gd(a,t)156Tb -14504.1 3.8 75Bu02 2 156Dy(d,t)155Dy -3184 10 70Gr46 KOP 2 156Sm(B-)156Eu 710 12 714 11 63Gu04,65Wi08 1 .4 156Eu(B-)156Gd 2450 10 2453 9 62Ew01*64Pe17 1 .3 156Ho(B+)156Dy 4400 200 5000# 200# 76Gr20 C 3.0 156Er(B+)156Ho 1690 70 1530# 280# 82Vy06 C -2.2 *156Eu(B-)156Gd Q-=2420(10,Ew),2450(10,Th),2440(15,Th),2478(20,Va) 67Va23,63Th03 157Gd 35Cl-155Gd 37Cl 4289.0 .7 4288.2 0.6 75Ka25 M21 2.5 1 -.5 157Yb(a)153Er 4622.0 50. 77Ha48,79Ho10 6 157Lu(a)153Tm 5127.9 50. 79Ho10*79Al16 7 157Hf(a)153Yb 5885.2 50. 79Ho10 7 157Ta(a)153Lu 6381.9 50. 79Ho10 8 156Gd(n,g)157Gd 6359.8 .6 6359.9 0.5 70Bo29*71Gr42 1 .2 156Gd(a,t)157Tb -14298.4 2.0 -14299.2 0.8 75Bu02 R -.4 156Dy(d,p)157Dy 4748 10 4745 6 68Be.A TAL - -.3 4753 10 70Gr46 KOP - -.8 ave 4750 7 average 1 -.8 157Sm(B-)157Eu 2600 200 73Ka23 3 157Eu(B-)157Gd 1360 15 1363 6 64Sh21,66Fu05 2 .2 157Tb(e)157Gd 62.9 .7 62.8 0.7 83Be.1 2 -.1 157Ho(B+)157Dy 2540 50 72To05 2 157Er(B+)157Ho 3470 80 75Al.A 3 *157Lu(a)153Tm E(a)=4996(5,Ho),4999(10,Al),4995(5,To) 83To01 *156Gd(n,g)157Gd Accepted though assignment uncertain,checks Cl doublets AHW 158Gd 35Cl-156Gd 37Cl 4926.2 1.4 4931.2 0.6 72Ba08 H25 2.5 1 1.4 4930.8 .7 75Ka25 M21 2.5 1 .2 158Dy 35Cl-156Dy 37Cl 3081.4 3.3 3076 6 72Ba08 H25 2.5 1 -.6 158Yb(a)154Er 4174.9 10. 77Ha48 3 158Lu(a)154Tmm 4787.4 5. 79Al16*83To01 4 158Hf(a)154Yb 5402.0 4. 79Ho10*83To01 5 158Ta(a)154Lu 6208.5 50. 79Ho10 5 158W(a)154Hf 6617.8 30. 81Ho.A 6 158Dy(p,t)156Dy -7535 15 -7543 6 77Ko04 1 -.5 158Gd(t,a)157Eu 11296 6 11296 6 79Bu05* R .1 157Gd(n,g)158Gd 7937.39 .12 7937.41 0.12 82Is05 1 .2 157Gd(a,t)158Tb -13880.5 1.6 -13880.9 1.6 75Bu02 1 -.2 158Dy(d,t)157Dy -2804 10 -2798 6 68Be.A TAL - .6 -2804 10 70Gr46 KOP - .6 ave -2804 7 average 1 .8 158Eu(B-)158Gd 3450 80 65Sc19,66Da06 2 158Tb(e)158Gd 1237.52 .09 1221.9 1.6 83Ra25* B -173.4 158Tb(B-)158Dy 948 8 939 3 68Sc04,62Na.A 1 -1.1 158Ho(B+)158Dy 4220 30 68Ab14 2 158Hom(it)158Ho 67.3 .5 NDS 3 158Er(B+)158Ho 1870 50 1000# 100# 61Bo24*68Ab18 B -17.4 *158Lu(a)154Tmm E(a)=4665(10,Al),4666(5,To) AHW *158Hf(a)154Yb E(a)=5263(5,To),5268(5,Ho) AHW *158Gd(t,a)157Eu Q-Q(156Gd(t,a))=-512(5,Bu),Q(156)=11807.3(1.7) AHW *158Tb(e)158Gd e(K)=50.395(.017,Ra) to 1187.13(.09) level AHW *158Er(B+)158Ho E+=780(80,Bo),700(60,Ab),900(100,Al),650(50,Ka), 77Ka.A,75Al.B *158Er(B+)158Ho but Q+<1550 75Bu.A 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 159Tb 35Cl-157Gd 37Cl 4333.3 1.2 4336.9 1.2 72Ba08 H25 2.5 1 1.2 159Lu(a)155Tm 4534.3 50. 80Al14 4 159Hf(a)155Yb 5224.7 50. 83To01*79Ho10 4 159Ta(a)155Lu 5745.8 50. 79Ho10 5 159W(a)155Hf 6461.9 50. 81Ho.A 5 158Gd(n,g)159Gd 5942 1 5942.8 0.9 71Gr42 1 .8 158Gd(a,t)159Tb -13686.6 10. -13682.8 1.1 75Bu02 U .4 -13682.2 1.2 AHW * U -.5 158Dy(d,p)159Dy 4608 10 4606 3 68Be.A TAL - -.2 4600 10 70Gr46 KOP - .6 ave 4604 7 average 1 .3 159Gd(B-)159Tb 969.0 1.5 970.8 1.2 77Bo.A 1 1.2 159Dy(e)159Tb 365.4 1.0 365.6 1.0 68My.A 1 .2 159Ho(B+)159Dy 1836 6 79Ad08* 2 159Er(B+)159Ho 2769 10 79Ad08* 3 159Tm(B+)159Er 3400 300 4000# 200# 75St07 B 2.0 *159Hf(a)155Yb E(a)=5095(5,Ho),5090(5,To) AHW *158Gd(a,t)159Tb Value used for calibration 156,157,158,161, AHW *158Gd(a,t)159Tb calculated from,mainly,158Gd(n,g)159Gd(B-)Tb, AHW *159Ho(B+)159Dy E+=506(6) to 309.6 level NDS *159Er(B+)159Ho E+=1113(2) to 649.3 and 624.4 levels NDS 160Gd 35Cl-158Gd 37Cl 5900.0 .5 5899.9 1.1 75Ka25 M21 2.5 1 -.1 160Dy 35Cl-158Dy 37Cl 3731.8 2.3 3740 3 72Ba08 H25 2.5 1 1.3 160Gd-160Dy 1854.5 .8 1856.6 1.6 72Ba08 H25 2.5 1 1.1 160Hf(a)156Yb 4899.7 4. 79Ho10*83To01 6 160Ta(a)156Lu 5552.1 50. 79Ho10 6 160W(a)156Hf 6072.1 10. 79Ho10 7 160Gd(p,t)158Gd -4919 5 -4913.2 1.0 73Oo01 MIN 1 1.2 160Dy(p,t)158Dy -6924 5 -6926 3 73Oo01 MIN 1 -.3 160Gd(t,a)159Eu 10630 8 79Bu05* 2 159Tb(n,g)160Tb 6375.1 .3 6375.19 0.30 74Ke01 1 .3 160Dy(d,t)159Dy -2339 10 -2319.2 1.8 68Be.A TAL - 2.0 -2323 10 70Gr46 KOP - .4 ave -2331 7 average 1 1.7 160Eu(B-)160Gd 4100 200 4500# 200# 73Mo18,73Da05 D 2.0 160Tb(B-)160Dy 1820 10 1835.7 1.6 64Ha26,56Be74 1 1.6 160Ho(B+)160Dy 3286 15 66Av03,64Gr.A 2 160Er(e)160Ho 400 120 330 30 82Vy06 U -.6 160Tm(B+)160Er 5920 50 5600# 100# 74Ar.A C -6.4 160Lu(B+)160Yb 7210 240 7800# 370# 83Ge08 B 2.5 *160Hf(a)156Yb E(a)=4777(5,Ho),4776(5,To) AHW *160Gd(t,a)159Eu Q-Q(158Gd(t,a))=666(5,Bu),Q(158)=11296(6) AHW 161Dy 35Cl-159Tb 37Cl 4535.0 1.0 4537.7 1.6 72Ba08 H25 2.5 1 1.1 161Hf(a)157Yb 4721.5 50. 83To01 7 161Ta(a)157Lu 5279.4 50. 79Ho10 8 161W(a)157Hf 5924.5 50. 79Ho10 8 161Re(a)157Ta 6439.3 50. 79Ho10 9 161Dy(p,t)159Dy -6546 5 -6547.7 1.7 73Oo01 MIN 1 -.3 160Gd(n,g)161Gd 5635.4 1.0 71Gr42 2 160Gd(a,t)161Tb -13004.2 1.6 -13006.0 1.2 75Bu02 1 -1.1 160Tb(n,g)161Tb 7696.3 .6 7696.6 0.6 75He.C 1 .5 160Dy(n,g)161Dy 6451.5 2. 6453.0 1.3 77Be03 1 .8 160Dy(3He,d)161Ho -679.4 2.2 75Bu02 2 161Tb(B-)161Dy 585 6 592.1 1.5 63Ko08,64Fu11 1 1.2 161Tm(B+)161Er 3000 200 3200# 100# 75Ad08 D 1.0 161Yb(B+)161Tm 3850 250 4200# 200# 81Ad02 D 1.4 162Er 35Cl2-158Gd 37Cl2 10577.5 2.7 10575.4 2.9 72Ba08 H25 2.5 1 -.3 162Dy 35Cl-160Dy 37Cl 4552.1 1.1 4552.6 1.4 72Ba08 H25 2.5 1 .2 162Er 35Cl-160Gd 37Cl 4674.6 1.9 4675.5 2.9 72Ba08 H25 2.5 1 .2 162Hf(a)158Yb 4418.7 7. 82Sc15*83To01 4 162W(a)158Hf 5676.5 4. 81Ho.A,82De11 6 162Re(a)158Ta 6274.2 50. 79Ho10 6 162Dy(p,t)160Dy -6168 5 -6168.1 1.3 73Oo01 MIN 1 -.0 162Er(p,t)160Er -7944 28 74De31 2 161Dy(n,g)162Dy 8196.99 .12 8196.99 0.12 82Is05 1 .0 161Dy(3He,d)162Ho -218.2 3.2 75Bu02 2 162Er(d,t)161Er -2952 10 69Tj01 KOP 2 162Gd(B-)162Tb 1400 100 70Ch02 3 162Tb(B-)162Dy 2530 60 77Ka08*66Fu08 2 162Tm(B+)162Er 4790 60 63Ab02,74De47 2 162Lu(B+)162Yb 6740 270 7090# 290# 83Ge08 B 1.3 *162Hf(a)158Yb E(a)=4308(10,Sc),4311(10,To) AHW *162Tb(B-)162Dy E-=1380(80,Ka),1450(100,Gu),1300(100,Fu), 67Gu03 *162Tb(B-)162Dy to 1148.2 level NDS 163Dy 35Cl-161Dy 37Cl 4744.7 1.2 4748.03 0.21 72Ba08 H25 2.5 U 1.1 163Ta(a)159Lu 4741.5 50. 4740# 200# 83Sc18* B -.0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 163W(a)159Hf 5519.7 50. 73Ea01*79Rytz 5 163Re(a)159Ta 6067.2 50. 79Ho10 6 163Os(a)159W 6674.1 50. 81Ho.A 6 162Dy(n,g)163Dy 6270.98 .11 6270.98 0.11 82Is05 1 .0 162Dy(3He,d)163Ho -17 10 -7.7 0.6 75Bu02* U .9 -7.2 1.0 82An19* - -.5 -8.0 0.8 82An19* - .4 ave -7.7 0.6 average 1 .0 162Er(d,p)163Er 4682 10 4678 5 69Tj01 KOP 1 -.4 163Tb(B-)163Dy 1700 50 66Fu08,71Ka22 2 163Ho(e)163Dy 2.6 .1 2.8 0.6 82An19*83Ba32 B 1.9 163Er(e)163Ho 1210 6 1210 5 63Pe16 1 -.0 163Tm(B+)163Er 2439 3 82Vy07 2 163Yb(B+)163Tm 3370 100 75Ad09 3 163Lu(B+)163Yb 4860 170 4630# 320# 83Ge08 B -1.4 *163Ta(a)159Lu Original assignment to 13 s 164Ta judged less AHW *163Ta(a)159Lu probable than to 163 Ta with possibly same T AHW *163W(a)159Hf E(a)=5385(5,Ea),5384(3,De),5385(5,Ho) 81Ho.A,82De11 *162Dy(3He,d)163Ho Q-Q(164Dy(3He,d))=734.3(1.0,Bu),Q(164)=717.3(10,Bu) 75Bu02 *162Dy(3He,d)163Ho Value used for calibration of 161,162,164,165 AHW *162Dy(3He,d)163Ho calculated from given 163Ho Q+=2.3(1.0), AHW *162Dy(3He,d)163Ho Lower limit -7.1 from observed M-capture in 163Ho AHW *163Ho(e)163Dy Q derived from halflife and theory AHW 164Er 35Cl-162Er 37Cl 3373.3 1.3 3373.3 2.6 72Ba08 H25 2.5 1 -.0 164W(a)160Hf 5278.0 3. 73Ea01*75To05 7 164Re(a)160Ta 5922.7 50. 79Ho10 7 164Os(a)160W 6478.3 20. 81Ho.A 8 164Er(p,t)162Er -7262 10 -7266.7 2.4 73Oo01 MIN 1 -.5 163Dy(n,g)164Dy 7658.11 .12 7658.11 0.12 82Is05 1 -.0 163Dy(3He,d)164Ho 344.3 1.4 344.6 1.4 75Bu02 1 .2 164Er(d,t)163Er -2593 10 -2589 5 69Tj01 KOP 1 .4 164Tb(B-)164Dy 3860 150 71Gu18 2 164Ho(B-)164Er 975 15 1013.1 2.6 54Br96,66Se07 1 2.5 164Tm(B+)164Er 3962 20 67Vr04 2 164Lu(B+)164Yb 6390 140 6300# 220# 83Ge08 B -.6 *164W(a)160Hf E(a)=5153(5,Ea),5150(3,De),5150(5,Ho),5146(5,To) 81Ho.A,82De11 165Ho 35Cl-163Dy 37Cl 4539 4 4540.8 1.4 70Wh01* H23 2.5 1 .2 165W(a)161Hf 5031.2 50. 75To05,79Rytz 8 165Re(a)161Ta 5659.4 50. 81Ho.A*82De11 9 165Os(a)161W 6354.3 50. 6320 50 78Ca11 F -.7 6317.4 50. 81Ho.A 9 164Dy(n,g)165Dy 5716.61 .14 5716.2 0.3 79Br25 2 -2.9 5715.96 .11 82Is05 2 2.3 164Dy(3He,d)165Ho 717.3 10. 727.0 1.3 75Bu02 U 1.0 727.1 1.4 75Bu02* 1 -.1 164Er(n,g)165Er 6650.1 .7 6650.2 0.7 70Bo29 1 .2 164Er(a,t)165Tm -15539.2 2.4 -15538.0 1.7 75Bu02 R .5 165Er(e)165Ho 371 5 377.1 2.1 63Zy01,63Ry01 1 1.2 165Tm(B+)165Er 1591 2 1591.8 1.5 78Gr.A 2 .4 165Yb(B+)165Tm 2763 20 67Pa04* 3 165Lu(B+)165Yb 4250 140 3800# 200# 83Ge08 B -3.2 *165Ho 35Cl-163Dy Increased by 5 for systematic difference with H25,H27 AHW *165Re(a)161Ta E(A)=5506(10,Ho), 5527(4,De).Latter value AHW *165Re(a)161Ta originally assigned to 166Re AHW *164Dy(3He,d)165Ho Q-Q(162Dy(3He,d)163Ho)=734.3(1.0) AHW *165Yb(B+)165Tm E+=1580(20,Pa) to 161.2 level NDS 166Er 35Cl-164Er 37Cl 4040.9 1.4 4042.7 2.0 72Ba08 H25 2.5 1 .5 166W(a)162Hf 4855.2 5. 75To05*79Rytz 5 166Re(a)162Ta 5630.9 50. 5570 50 78Sc26* F -1.1 5574.5 50. 82De11* 6 166Os(a)162W 6130.0 6. 77Ca23,81Ho.A 7 166Ir(a)162Re 6702.8 50. 81Ho.A 7 166Er(p,t)164Er -6641 5 -6643.1 1.9 73Oo01 MIN 1 -.4 165Dy(n,g)166Dy 7043.5 .4 83Ke.A 3 165Ho(n,g)166Ho 6243.69 .11 6243.69 0.11 82Is05 1 -.0 166Ho(B-)166Er 1854.0 1.5 1853.9 1.1 74Gr41*66Da04 1 -.1 166Tm(B+)166Er 3037 12 3047 11 61Gr33*61Zy02 1 .8 166Yb(e)166Tm 230 30 292 13 73De22,63Ja06 1 2.1 166Lu(B+)166Yb 5480 160 74De09 2 *166W(a)162Hf E(a)=4739(5,To),4733(10,Ho) 81Ho.A *166Re(a)162Ta Unconfirmed in later measurement by same author AHW *166Re(a)162Ta 166-169Re(a) reassigned to 165-168 AHW *166Ho(B-)166Er Q-=1857(3,Gr),1854(1.5,Da),1851.6(2.0,Ra) 83Ra.A *166Ho(B-)166Er Q-=1859(3,Ra),1844(2,Fu),not used 76Ra33,63Fu17 *166Tm(B+)166Er E-=1940(20,Gr),1920(20,Zy),1936(20,Pr),to 80.6 level 63Pr13 C13 H11-167Er 154040.4 6.2 154029 4 79Ha32 M23 2.5 1 -.7 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 167Er 35Cl-165Ho 37Cl 4679.5 1.2 4677.5 1.3 72Ba08 H25 2.5 1 -.7 167Re(a)163Ta 5461.1 10. 5410 50 78Sc26* F -5.2 5408.7 50. 82De11* 6 167Os(a)163W 5978.5 50. 82De11 6 167Ir(a)163Re 6543.0 50. 81Ho.A 7 167Er(p,t)165Er -6427 6 -6429.0 1.9 73Oo01 MIN - -.3 -6430 5 75St08 - .2 ave -6429 4 average 1 -.0 166Er(n,g)167Er 6436.1 .4 6436.1 0.4 70Mi01,70Bo29 1 -.0 166Er(a,t)167Tm -14907.7 1.7 -14907.7 1.7 75Bu02 1 -.0 167Dy(B-)167Ho 2350 60 77Tu01 3 167Ho(B-)167Er 970 20 1007 5 68Fu07 R 1.9 167Yb(B+)167Tm 1954 4 1954 4 77Kr.A 1 .1 167Lu(B+)167Yb 3130 100 64Ag.A* 2 *167Re(a)163Ta Unconfirmed in later measurement by same author AHW *167Re(a)163Ta 166-169Re(a) reassigned to 165-168 AHW *167Lu(B+)167Yb E+=2060(100,Ag) to 29.7,78.7 levels NDS C13 H12-168Er 161543.3 5.1 161532 4 79Ha32 M23 2.5 1 -.9 168Yb 35Cl2-164Dy 37Cl2 10612.8 8.7 10622 4 74Ba90 H27 2.5 U .4 168Er 35Cl-166Er 37Cl 5028.9 1.5 5027.7 0.5 72Ba08 H25 2.5 U -.3 168Er-167Er 320.9 4.3 322.08 0.21 79Ha32 M24 2.5 U .1 168Re(a)164Ta 5189.7 50. 82De11* 6 168Os(a)164W 5818.8 3. 82De11 8 168Ir(a)164Re 6410.9 50. 82De11 8 168Pt(a)164Os 6888.3 20. 81Ho.A 9 168Yb(p,t)166Yb -7647 7 -7644 7 73Oo01 MIN 1 .5 167Er(n,g)168Er 7771.33 .20 7771.35 0.20 79Br25,70Bo29 1 .1 167Er(a,t)168Tm -14503.5 2.1 -14503.5 2.0 75Bu02 1 .0 168Yb(d,t)167Yb -2797 12 -2795 5 66Bu16 KOP 1 .2 168Ho(B-)168Er 2720 100 73Ka07 2 168Lu(B+)168Yb 4470 80 72Ch44 2 *168Re(a)164Ta 166-169Re(a) reassigned to 165-168 AHW 169Tm 35Cl2-165Ho 37Cl2 9793.0 1.1 9793.2 1.6 72Ba08 H25 2.5 1 .1 169Tm 35Cl-167Er 37Cl 5113.2 1.1 5115.8 1.4 72Ba08 H25 2.5 1 .9 169Os(a)165W 5717.6 50. 82De11 9 169Ir(a)165Re 6275.8 50. 82De11 10 169Pt(a)165Os 6840.2 50. 81Ho.A 10 168Er(n,g)169Er 6003.1 .3 6003.16 0.30 70Mu15*70Bo29 1 .2 168Er(a,t)169Tm -14244.8 10. -14242.3 1.3 75Bu02 U .3 -14241.2 1.4 AHW * U -.8 169Tm(d,t)168Tm -1775 6 -1775.3 2.3 73Ko06 1 -.0 168Yb(n,g)169Yb 6867.2 .5 6867.2 0.5 68Mi08*68Sh12 1 .1 169Er(B-)169Tm 344.6 3. 350.9 1.4 56Bi30*65Du02 1 2.1 169Lu(B+)169Yb 2293 3 77Bo31 2 169Hf(B+)169Lu 3350 100 73Me09,69Ar23 3 *168Er(n,g)169Er S(n)=6003.1(.3,Mu),6002.7(.8,Bo) AHW *168Er(a,t)169Tm Calculated from combination of other data, AHW *168Er(a,t)169Tm Value used for calibration of 165,167,168,171 AHW *168Yb(n,g)169Yb S(n)=6867.2(.5,Sh),6867.21(.46,Mi) AHW *169Er(B-)169Tm E-=340(2,Bi),344(4,Du),55% to gs,45% to 8.4 level NDS 170Er 35Cl-168Er 37Cl 6046.9 1.8 6043.4 2.0 72Ba08 H25 2.5 1 -.8 170Yb 35Cl-168Yb 37Cl 3806.0 7.6 3816 4 74Ba90 H27 2.5 1 .5 170Os(a)166W 5540.4 4. 82De11 6 170Ir(a)166Re 6172.5 50. 82De11 7 170Pt(a)166Os 6704.0 7. 81Ho.A*82En03 8 170Er(p,a)167Ho 7036 5 7038 5 83Ta.A 2 .5 170Er(p,t)168Er -4785 5 -4779.5 1.9 73Oo01 MIN 1 1.1 170Yb(p,t)168Yb -6861 6 -6855 3 73Oo01 MIN 1 1.1 170Er(d,3He)169Ho -3107 20 76Su.A 2 169Tm(n,g)170Tm 6593.0 1.5 6593.1 1.2 66Sh03,70Or05 1 .1 170Yb(d,t)169Yb -2211 12 -2212 3 66Bu16 KOP 1 -.1 170Ho(B-)170Er 3870 50 78Tu04 2 170Tm(B-)170Yb 968 1 968.1 0.9 69Va17*54Po26 1 .1 170Lu(B+)170Yb 3440 20 65Ha30,60Dz02 2 *170Pt(a)166Os E(a)=6545(8,Ho),6547(10,En) AHW *170Tm(B-)170Yb Q-=970(2,Po),967.2(1,Va) AHW 171Yb 35Cl2-167Er 37Cl2 10178.0 1.7 10177.4 1.6 74Ba90 H27 2.5 1 -.1 171Yb 35Cl-169Tm 37Cl 5061.9 1.7 5061.6 1.4 74Ba90 H27 2.5 1 -.1 171Os(a)167W 5376.0 50. 72To06,79Ha10 5 171Ir(a)167Re 6069.2 50. 82De11 7 171Pt(a)167Os 6604.8 50. 81Ho.A,81De22 7 171Yb(p,t)169Yb -6599 5 -6602 3 73Oo01 MIN 1 -.6 170Er(n,g)171Er 5681.5 .5 5681.5 0.5 71Al01 1 .1 170Er(a,t)171Tm -13423.3 1.7 -13424.2 1.2 75Bu02 1 -.5 170Yb(n,g)171Yb 6614.7 .8 6614.6 0.7 72Wa10 1 -.1 170Yb(a,t)171Lu -15461.8 2.5 -15461.3 2.1 75Bu02 R .2 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 171Er(B-)171Tm 1490 2 1490.7 1.3 61Ar15 1 .3 171Tm(B-)171Yb 96.5 1.0 96.4 1.0 57Sm73 1 -.1 171Lu(B+)171Yb 1479 3 1479.6 2.0 77Bo32 2 .2 172Yb 35Cl2-168Er 37Cl2 9906.7 1.7 9910.7 1.6 74Ba90 H27 2.5 1 .9 172Yb 35Cl-170Yb 37Cl 4568.5 2.0 4569.3 0.9 74Ba90 H27 2.5 1 .2 172Os(a)168W 5226.8 10. 71Bo06 5 172Ir(a)168Re 5967.0 50. 82De11 7 172Pt(a)168Os 6464.6 4. 81De22 9 170Er(t,p)172Er 4034 4 4036 4 80Sh14 1 .4 171Yb(n,g)172Yb 8019.8 .4 8019.8 0.4 75Gr32*71Al14 1 -.0 171Yb(3He,d)172Lu -792 34 -777.0 2.5 76El11 U .4 171Yb(a,t)172Lu -15097.5 2.5 75Bu02 2 172Er(B-)172Tm 888 5 891 5 62Gu03 1 .5 172Tm(B-)172Yb 1870 10 1880 6 66Ha15,60Vo.A 1 1.0 172Hf(e)172Lu 350 50 79To18 3 172Ta(B+)172Hf 4920 180 73Ca10 4 172W(B+)172Ta 3250 100 2500# 200# 74Ca.A B -7.5 *171Yb(n,g)172Yb S(n)=8020.9(.8,La),8020.1(.5,Gr),8019.5(.5,La) 78La.A 173Yb 35Cl2-169Tm 37Cl2 9898.3 1.2 9896.4 1.5 74Ba90 H27 2.5 1 -.6 173Yb 35Cl-171Yb 37Cl 4835.3 1.6 4834.7 0.7 74Ba90 H27 2.5 1 -.1 173Os(a)169W 5057.2 50. 71Bo06 7 173Ir(a)169Re 5810.6 50. 82De11 7 173Pt(a)169Os 6352.1 50. 81De22 10 173Au(a)169Ir 6879.3 50. 83Sc24 11 172Yb(n,g)173Yb 6367.5 .5 6367.4 0.5 71Al01 1 -.2 172Yb(a,t)173Lu -14901.2 1.8 75Bu02 2 173Er(B-)173Tm 2500 200 72Pu02 3 173Ta(B+)173Hf 3670 200 2800# 200# 73Re03 B -4.3 174Yb 35Cl-172Yb 37Cl 5430.3 1.1 5430.7 0.5 74Ba90 H27 2.5 1 .1 174Os(a)170W 4872.2 10. 71Bo06 8 174Ir(a)170Re 5607.1 50. 67Si02 5 174Pt(a)170Os 6182.4 4. 79Ha10,81De22 7 174Au(a)170Ir 6683.9 50. 83Sc24 8 173Yb(n,g)174Yb 7464.63 .11 7464.63 0.11 82Is05 1 .0 173Yb(a,t)174Lu -14507.7 1.8 75Bu02 2 174Tm(B-)174Yb 3090 50 64Ka16,67Gu12 2 174Ta(B+)174Hf 3845 80 4000# 100# 71Ch26 B 1.9 175Lu 37Cl-142Nd 35Cl2 61249.5 2.5 61247.8 2.5 77So02 H31 2.5 1 -.3 175Lu 35Cl-173Yb 37Cl 5507.3 1.4 5512.5 1.6 74Ba90 H27 2.5 1 1.5 175Ir(a)171Re 5519.4 50. 67Si02 5 175Pt(a)171Os 6177 3 79Ha10*82De11 6 175Au(a)171Ir 6590.9 50. 75Ca06 8 175Hg(a)171Pt 7020.8 50. 83Sc24 8 174Yb(n,g)175Yb 5822.35 .12 5822.36 0.12 82Is05 1 .1 174Yb(a,t)175Lu -14303 10 -14305.2 1.4 75Bu02 U -.2 -14305.6 1.5 AHW * U .3 174Hf(n,g)175Hf 6708.8 .5 6708.7 0.5 71Al01* 1 -.2 175Tm(B-)175Yb 2400 50 66Wi04 2 175Yb(B-)175Lu 467 2 468.8 1.4 62Ba32*56Co13 1 .9 175Hf(e)175Lu 611 8 686.3 2.9 68Ja11*69Jo16 F 9.4 *175Pt(a)171Os E(a)=5964(5,Ha),5959(3,De) to 76.4 level 79Ha10 *174Yb(a,t)175Lu Value used for calibration 171,172,173,174,175, AHW *174Yb(a,t)175Lu calculated from,mainly,174Yb(n,g)175Yb(B-)175Lu, AHW *174Hf(n,g)175Hf From gamma's to 125.9,196,4 levels NDS *175Yb(B-)175Lu Q-=471(3,Co),463(3,Mi),466(3,Ba) 55Mi90 *175Hf(e)175Lu Several reaction data yield 686(3) AHW 176Lu 37Cl-143Nd 35Cl2 61067.2 1.4 61065.7 2.4 77So02 H31 2.5 1 -.4 176Yb 35Cl2-172Yb 37Cl2 12088.9 2.4 12085.5 2.0 74Ba90 H27 2.5 1 -.6 176Yb 35Cl-174Yb 37Cl 6656.3 1.4 6654.8 1.9 74Ba90 H27 2.5 1 -.4 176Hf 35Cl-174Hf 37Cl 4314.21 .86 4311.8 1.8 77Sh12 H37 2.5 1 -1.1 176Ir(a)172Re 5237.3 50. 67Si02 5 176Pt(a)172Os 5888.1 3. 79Ha10*82De11 6 176Au(a)172Ir 6436.6 50. 75Ca06 8 176Hg(a)172Pt 6907.3 20. 83Sc24 10 176Yb(p,a)173Tm 7628.8 4.4 78Ta10 2 176Yb(p,t)174Yb -4216 5 -4209.9 1.8 73Oo01 MIN 1 1.2 176Hf(p,t)174Hf -6397 5 -6392.5 1.7 73Oo01 MIN 1 .9 175Lu(n,g)176Lu 6293.2 1.2 6293.3 1.1 70Wa20 1 .1 176Hf(d,t)175Hf -1925 8 -1908.4 1.8 73Za08 TAL 1 2.1 176Tm(B-)176Yb 4300 150 3900# 200# 67Gu11* B -2.7 176Lum(it)176Lu 127 5 67St14 2 176Lu(B-)176Hf 1190 4 1186.1 2.2 R176Hf 176Lum 1 -1.0 176Lum(B-)176Hf 1317 1 1313 5 73Va11 R -3.9 176Ta(B+)176Hf 3100 100 69Bo23,71Be10 2 *176Pt(a)172Os E(a)=5757(5,Ha),5753(3,De),5743(4,Bo) 82Bo04 *176Tm(B-)176Yb From several branches to levels in 176Yb NDS *176Tm(B-)176Yb Does not fit systematics AHW 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 177Ir(a)173Re 5127.1 50. 67Si02 5 177Pt(a)173Os 5645.8 10. 79Ha10*82Bo04 6 177Au(a)173Ir 6292.4 50. 75Ca06 8 177Hg(a)173Pt 6732.4 50. 79Ha10 11 177Hf(p,t)175Hf -6071 5 -6067.7 2.4 73Oo01 MIN 1 .7 176Yb(n,g)177Yb 5566.8 1.2 72Al19 2 176Yb(a,t)177Lu -13631.5 1.8 -13631.5 1.6 75Bu02 1 -.0 176Lu(n,g)177Lu 7072.0 .6 7072.2 0.6 72Mi16*71Ma45 1 .3 176Hf(d,p)177Hf 4150 7 4159.3 1.9 68Ri07 TAL - 1.3 177Hf(d,t)176Hf -127 11 -126.6 1.9 72Za04 TAL - .0 176Hf(d,p)177Hf ave 4153 6 4159.3 1.9 average 1 1.1 177Lu(B-)177Hf 496.9 1.5 497.8 1.4 62El02*55Ma12 1 .6 177Ta(B+)177Hf 1158 5 61We11* 2 *177Pt(a)173Os E(a)=5527(6,Ha),5510(3,Bo),bad case AHW *176Lu(n,g)177Lu S(n)=7072.6(1.5,Or),7070.8(.3,Mi),7072.4(.4,Ma) 70Or05 *177Lu(B-)177Hf Q-=497(2,Ma),496.8(1.7,El) AHW...,NDS *177Ta(B+)177Hf K/L=0.427(7) to 1057.8 level NDS 178Hf 35Cl-176Hf 37Cl 5239.5 1.3 5240.3 2.0 74Ba90 H27 2.5 1 .3 178Pt(a)174Os 5575.5 10. 79Ha10*82Bo04 7 178Au(a)174Ir 6056.4 50. 68Si01,73Ga08 6 178Hg(a)174Pt 6578.1 5. 79Ha10 8 176Yb(t,p)178Yb 3865 10 82Zu02 2 176Lu(t,p)178Lum 4482 5 81Gi01 2 178Hf(p,t)176Hf -5531 5 -5527.6 1.9 73Oo01 MIN 1 .7 177Hf(n,g)178Hf 7624.8 1.0 7625.5 0.9 77St10,69Fa01 1 .7 178Yb(B-)178Lu 640 30 630 27 73Or03 R -.3 178Lu(B-)178Hf 2130 40 2112 25 75Ka15,73Or03 2 -.5 178Lum(B-)178Hf 2347 100 2232 5 67Ta09 U -1.2 178Tam(B+)178Hf 1912 10 61Ga05 2 178Tam(it)178Ta 0 100 61Ga05 3 178W(e)178Ta 89 2 67Ni02 4 178Re(B+)178W 4660 180 70Go20 5 *178Pt(a)174Os E(a)=5458(5,Ha),5440(3,Bo),bad case AHW C14 H11-179Hf 140260.3 1.8 140263.2 2.9 79Ha32 M23 2.5 1 .6 179Hf 35Cl-177Hf 37Cl 5544.4 .7 5545.1 1.1 74Ba90 H27 2.5 1 .4 179Pt(a)175Os 5294.2 50. 82Bo04*79Ha10 9 179Au(a)175Ir 5982.0 50. 68Si01,79Rytz 6 179Hg(a)175Pt 6432.0 5. 79Ha10 7 179Tl(a)175Aum 6710.2 50. 83Sc24 10 179Tlm(a)175Au 7364.5 50. 83Sc24 9 178Hf(n,g)179Hf 6098.8 1.1 6100.0 0.8 70Or05,72Al19 1 1.1 179Lu(B-)179Hf 1350 40 61Ku10,63St06 2 179Ta(e)179Hf 129 16 110 5 61Jo15* R -1.2 179Re(B+)179W 2690 50 75Me20 3 *179Pt(a)175Os E(a)=5194(10,Ha),5156(3,Bo),bad case AHW *179Ta(e)179Hf As corrected by ref. 76He.B C14 H12-180Hf 147356.6 4.8 147354.7 3.0 79Ha32 M23 2.5 1 -.2 180Hf 35Cl2-176Hf 37Cl2 11036.1 3.0 11040.2 2.2 74Ba90 H27 2.5 1 .5 180Hf 35Cl-178Hf 37Cl 5798.4 .7 5799.9 0.9 74Ba90 H27 2.5 1 .9 180Hf-179Hf 730.8 4.7 733.5 0.4 79Ha32 M24 2.5 U .2 180Pt(a)176Os 5257.1 10. 66Si08 4 180Hg(a)176Pt 6259.4 5. 79Ha10 7 179Hf(n,g)180Hf 7388.0 .4 7388.2 0.4 74Bu22 1 .4 180W(d,t)179W -2155 15 72Ca01 KOP 2 180Lu(B-)180Hf 3100 70 71Sw01,71Gu02 2 180Tam(it)180Ta 73 2 75.1 1.3 81Co17 1 1.0 180Ta(B-)180W 710 11 708 4 62Ga07,51Br87 1 -.2 180Re(B+)180W 3795 30 67Go22,67Ho12 2 181Ta 35Cl-179Hf 37Cl 5128.6 2.1 5130.0 2.9 80Sh06 H35 2.5 1 .3 181Ta 17O 35Cl-180Tam O 37Cl 7572 21 7616.7 0.7 80Sh06 H35 2.5 U .9 181Pt(a)177Os 5134.7 50. 66Si08 5 181Au(a)177Ir 5750.3 5. 68Si01*79Rytz 6 181Hg(a)177Pt 6289 5 79Ha10* 5 181Ta(p,t)179Ta -5738 5 -5740 5 73Oo01 MIN 2 -.4 180Hf(n,g)181Hf 5695.5 .7 5695.7 0.7 71Al22 1 .2 181Ta(g,n)180Ta -7580 5 -7577.1 1.3 79Ba06 - .6 181Ta(d,t)180Ta -1317.7 1.8 -1319.8 1.3 79Ta.B - -1.2 181Ta(g,n)180Ta ave -7575.6 1.7 -7577.1 1.3 average 1 -.9 180Tam(n,g)181Ta 7652.3 .5 7652.2 0.5 81Co17 1 -.3 180W(d,p)181W 4468 15 4458 7 72Ca01 KOP 1 -.7 181Hg(ep)180Pt 6050 200 6300# 200# 70Li.A,72Ho19 D 1.3 181Hf(B-)181Ta 1023 4 1028.3 2.7 53Ba81*52Fa14 1 1.3 181W(e)181Ta 187 10 186 7 66Ra03 1 -.1 181Os(B+)181Re 3030 200 67Go25* 3 *181Au(a)177Ir E(a)=5623(5,Si),5625(5,fine stucture,Ha) 79Ha10 *181Hg(a)177Pt E(a)=6006(5) to 147.4 state 79Ha10 *181Hf(B-)181Ta Q-=408(8,Fa),405(5,Ba),to 615.2 level AHW...,NDS *181Os(B+)181Re Reported to feed level at 2867.1 81Fi.A 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 182Pt(a)178Os 4942.8 17. 66Si08,63Gr08 6 182Au(a)178Ir 5529.0 10. 79Ha10* 7 182Hg(a)178Pt 5999.1 5. 79Ha10 7 180Hf(t,p)182Hf 3931 6 83Bu03 2 180W(t,p)182W 6265 5 6263 4 76Ca10* - -.3 182W(p,t)180W -6261 10 -6263 4 73Oo01 MIN - -.2 180W(t,p)182W ave 6264 4 6263 4 average 1 -.2 181Ta(n,g)182Ta 6062.6 .4 6062.6 0.4 71He13*77St15 1 .1 182W(d,t)181W -1809 10 -1805 6 72Ca01 KOP 1 .4 182Hfm(it)182Hf 1172.9 .5 NDS 3 182Ta(B-)182W 1811 3 1813.6 2.0 64Da15,67Ba01 1 .9 182Rem(B+)182W 2860 20 63Ba37 2 182Rem(it)182Re 60 100 63Ba37,AHW 3 182Os(e)182Re 850 20 70Ak02 4 *182Au(a)178Ir E(a)=5353(10) to 55(1) level 79Ha10 *180W(t,p)182W Q-Q(170Y(t,p))=112(5,Ca),Q(170)=-6153(4) AHW *181Ta(n,g)182Ta S(n)=6062.9(.4,He),6062.7(.5,St), AHW *181Ta(n,g)182Ta S(n)=6062.3(.5,Co),6062.95(.2,Fo) 81Co17,83Fo.A 183W O-C2 35Cl5 100858.0 2.7 100871 3 77Sh04 H29 2.5 1 2.0 183W O2-178Hf 37Cl 30455.7 5.0 30451 3 80Sh06 H35 2.5 1 -.4 183W O2-180W 35Cl 24509 6 24495 4 77Sh04 H28 2.5 1 -.9 183W 35Cl-181Ta 37Cl 5177.2 1.2 5178.1 2.0 80Sh06 H35 2.5 1 .3 183W O2 37Cl-182W 35Cl2 20045.6 1.8 20045.0 1.4 77Sh04 H28 2.5 1 -.1 183Pt(a)179Os 4840.0 50. 66Si08,63Gr08 4 183Au(a)179Ir 5462.6 50. 68Si01,79Rytz 5 183Hg(a)179Pt 6040.3 4. 79Ha10,76To06 8 183Tlm(a)179Aum 6593.3 50. 80Sc09* 9 183Pb(a)179Hg 6950.1 50. 80Sc09 8 183W(p,t)181W -5810 10 -5772 7 73Oo01 MIN F 3.8 182Ta(n,g)183Ta 6934.18 .20 83Fo.B 2 182W(n,g)183W 6190.5 1.5 6191.0 1.3 67Sp03*70Or05 1 .4 183Hg(ep)182Pt 5000 200 70Li.A,72Ho19 7 183Hf(B-)183Ta 2010 30 67Mo13 3 183Re(e)183W 556 8 69Ku03 2 183Ir(B+)183Os 3190 100 70Be62 4 *183Tlm(a)179Aum See 185Tlm(a) AHW *182W(n,g)183W S(n)=6190.8(1.5,Sp),6190.4(1.5,Or) AHW 184W O2-181Ta 35Cl 23917.5 2.8 23912.7 2.0 80Sh06 H35 2.5 1 -.7 184W 35Cl-182W 37Cl 5675 3 5676.9 1.4 70Mc03 H22 2.5 1 .2 5676.3 2.2 77Sh04 H28 2.5 1 .1 184W O2 37Cl-183W 35Cl2 18734.7 3.0 18734.6 0.4 77Sh04 H28 2.5 U -.0 184Pt(a)180Os 4590.0 15. 66Si08,63Gr08 3 184Au(a)180Ir 5287.2 50. 70Ha18 4 184Hg(a)180Pt 5662.3 5. 70Ha18,76To06 4 184Tl(a)180Au 6297.2 50. 76To06*79Rytz 7 184Pb(a)180Hg 6772.5 7. 80Du02*80Sc09 8 183W(n,g)184W 7411.7 .3 7411.73 0.30 74Gr11,75Bu01 1 .1 184Hf(B-)184Ta 1340 50 73Wa18 3 184Ta(B-)184W 2866 26 73Ya02 2 184Re(e)184W 1496 6 1492 4 74Mc08* 1 -.7 184Ir(B+)184Os 4720 250 70Be62 2 4290 100 4720 250 73Ho09 B 4.3 *184Tl(a)180Au E(a)=6962(5,To),6155(10,Sc) 80Sc09 *184Pb(a)180Hg E(a)=6618(10,Du),6632(10,Sc) AHW *184Re(e)184W Calculated from reactions 74El.A 185Re 35Cl-183W 37Cl 5678.7 1.0 5681.2 1.2 77Sh04 H28 2.5 1 1.0 185Au(a)181Ir 5179.2 50. 68Si01,79Rytz 4 185Hg(a)181Pt 5778.2 5. 70Ha18,77Ij01 6 185Hgm(a)181Ptm 5489.9 10. 76Gr.A,80To.A 8 185Tlm(a)181Aum 6109.3 5. 76To06*79Rytz 9 185Pb(a)181Hg 6679.7 50. 80Sc09 5 185Pbm(a)181Hgm 6628.0 50. 80Sc09 7 184W(n,g)185W 5754.1 1.0 5754.2 0.9 73Ne.A 1 .1 185Re(d,t)184Re -1419.4 4.5 -1422 4 76El12* 1 -.5 184Os(n,g)185Os 6625.4 .9 6625.3 0.9 74Pr15 1 -.1 185Ta(B-)185W 2010 20 1991 14 69Ku07 2 -1.0 185W(B-)185Re 432.6 1.0 432.8 0.9 67Wi19 1 .2 185Os(e)185Re 1015.0 .7 1015.0 0.7 70Sc06,69Co16 1 -.1 185Hgm(it)185Hg 10 5 NDS 7 185Tlm(it)185Tl 452.8 2. 77Sc03 8 *185Tlm(a)181Aum E(a)=5975(5,To),5980(7,Co),5970(15,Sc),6012?(15,Sc) 75Co.A,80Sc09 *185Re(d,t)184Re Q-Q(187Re(d,t))=310(4,El),Q(187)=1109.4(2.2) AHW 186W O-C 13C 35Cl4 37Cl 104592.7 3.2 104603 4 77Sh04 H29 2.5 1 1.3 186W O2-183W 35Cl 25122 5 25113.1 2.1 77Sh04 H28 2.5 1 -.7 186W 35Cl-184W 37Cl 6382.0 1.4 6378.5 2.1 77Sh04 H28 2.5 1 -1.0 186Pt(a)182Os 4323.2 20. 63Gr08 5 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 186Hg(a)182Pt 5206.2 15. 70Ha18 7 186Tl(a)182Au 5891.9 50. 75Co.A 8 186Pb(a)182Hg 6470.4 10. 74Le02*80Sc09 8 186W(p,t)184W -4474 5 -4467.3 1.9 73Oo01 MIN 1 1.3 186W(t,a)185Ta 11430 20 11411 14 80Lo10 R -1.0 186W(d,t)185W -939 10 -937.7 2.0 72Ca01 KOP 1 .1 185Re(n,g)186Re 6178.8 1.5 6178.0 1.4 70Or05,69La11 1 -.6 186Ta(B-)186W 3900 60 69Mo16 2 186Re(B-)186Os 1076 2 1074.5 1.7 64Ma36*69Va17 1 -.7 186Ir(B+)186Os 3831 20 63Em02 2 186Tlm(it)186Tl 400 30 77Be23 9 *186Pb(a)182Hg E(a)=6320(20,Le),6332(10,Sc) AHW *186Re(B-)186Os Q-=1076(3,Ma),1076(3?,Va) AHW 187Re O2-184W 35Cl 25797.4 3.5 25792.5 2.0 77Sh04 H28 2.5 1 -.6 187Re 35Cl-185Re 37Cl 5744.2 1.2 5743.2 1.8 77Sh04 H28 2.5 1 -.3 187Au(a)183Ir 4792.7 50. 68Si01* 5 187Hg(a)183Pt 5145.3 50. 70Ha18* 5 187Hgm(a)183Ptm 4976.6 20. 70Ha18* 7 187Tlm(a)183Aum 5646.0 9. 80Sc09*76To06 8 187Pb(a)183Hg 6404 10 75Ca06*81Mi12 8 187Pbm(a)183Hgm 6214.1 10. 81Mi12*80Sc09 10 186W(n,g)187W 5466.5 1.0 5466.4 1.0 73Ne.A*70Or05 1 -.1 186Os(n,g)187Os 6291 2 6291.2 1.5 74Pr15 1 .1 187W(B-)187Re 1313 2 1312.4 1.7 69Na03,70He14 1 -.3 187Re(B-)187Os 2.64 .04 2.64 0.04 65Br12,67Hu05 1 -.0 187Au(B+)187Pt 3900 150 3720# 250# 83Gn01 B -1.2 187Tlm(it)187Tl 330 5 77Sc03 7 *187Au(a)183Ir Assignment uncertain NDS *187Hg(a)183Pt Uncertain which line belongs to upper isomer AHW *187Tlm(a)183Aum E(a)=5528(10,Sc),5510(20,To) AHW *187Pb(a)183Hg From a to 67.4 and 275.5 levels 81Mi12 *187Pbm(a)183Hgm E(a)=6090(10,Sc),6073(10,Mi) AHW *186W(n,g)187W S(n)=5466.0(1.5,Or),5466.5(.5,Me) AHW 188Os 35Cl-186W 37Cl 4426 3 4423.1 1.9 70Mc03 H22 2.5 1 -.4 188Pt(a)184Os 4004.4 7. 4000 6 63Gr08*78El11 1 -.6 188Hg(a)184Pt 4710.4 20. 79Ha10 4 188Pb(a)184Hg 6110.3 5. 74Le02,81To02 5 188Bim(a)184Tlm 7157.5 25. 80Sc09* 9 188Os(p,t)186Os -5802 5 -5798.6 1.5 73Oo01 MIN - .7 -5803 4 75Th04 - 1.1 ave -5803 3 average 1 1.3 187Re(n,g)188Re 5871.6 .3 5871.69 0.30 72Sh13 1 .3 187Os(n,g)188Os 7989.3 .3 7989.24 0.29 83Fe.1 1 -.2 188W(B-)188Re 349 3 64Bu10 2 188Re(B-)188Os 2116 2 2120.2 0.4 68An07*56Jo05 1 2.1 188Ir(B+)188Os 2823 20 2794 10 62Wa20*69Ya02 1 -1.4 188Pt(e)188Ir 525 10 518 9 68Ha23,78El11 1 -.7 *188Pt(a)184Os E(a)=3930(10,Gr),3915(10,El),3905(15,Ha) 79Ha10 *188Bim(a)184Tlm May go to level below Tlm,see 190,192 etc. AHW *188Re(B-)188Os Q-=2116(2,An),2112(5,Jo) AHW *188Ir(B+)188Os Q+=2833(10,Wa),2781(20,Ya),2827(30,Ag) 70Ag03 C14 H21-189Os 206188.3 6.2 206188 4 79Ha32 M23 2.5 1 .0 189Os 35Cl-187Re 37Cl 5341 3 5343.0 1.5 70Mc03 H22 2.5 1 .3 189Pb(a)185Hg 5843.9 50. 74Le02 7 189Bi(a)185Tlm 6814.5 20. 74Le02 9 189Os(p,t)187Os -5431 5 -5429.2 1.4 73Oo01 MIN - .4 -5432 4 75Th04 - .7 ave -5432 3 average 1 .8 188Os(n,g)189Os 5920.8 2. 5921.8 1.4 76Be50 1 .5 189W(B-)189Re 2500 200 65Ka07 3 189Re(B-)189Os 1010 20 1008 9 65Bl06,63Cr06 R -.1 189Pt(B+)189Ir 1907 30 1961 16 71Pl08* 1 1.8 189Au(B+)189Pt 3160 300 2700# 200# 75Un.A D -1.5 189Hg(B+)189Au 4200 200 75Un.A 3 189Tlm(B+)189Hg 5960 200 5490# 370# 75Un.A B -2.3 *189Pt(B+)189Ir E+=885(10) reinterpreted as (mainly) gs transition AHW 190Os 35Cl-188Os 37Cl 5557 3 5556.8 1.7 70Mc03 H22 2.5 1 -.0 190Os-C14 H21 -205897.8 5.8 -205889 4 79Ha32 M23 2.5 1 .6 190Os-189Os 285.2 5.2 299.1 1.0 79Ha32 M24 2.5 U 1.1 190Pt(a)186Os 3243.4 20. 3244 7 61Pe23,63Gr08 1 .1 190Pb(a)186Hg 5697.1 5. 74Le02,81El03 8 190Bim(a)186Tlm 6589.0 10. 74Le02* 10 190Os(p,t)188Os -5234 5 -5232.8 1.6 73Oo01 MIN - .2 -5237 4 75Th04 - 1.1 ave -5236 3 average 1 1.0 190Pt(p,t)188Pt -7150 10 -7166 7 78Ve10 1 -1.6 190Os(t,a)189Re 11796 10 11796 9 76Hi08 2 -.0 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 189Os(n,g)190Os 7792.8 1.0 7792.8 1.0 79Ca02 1 -.0 190Os(d,t)189Os -1530 4 -1535.5 1.0 76Be50 U -1.4 190Pt(p,d)189Pt -6693 11 -6686 10 80Ka19 1 .7 190W(B-)190Re 1270 70 76Ha39 3 190Re(B-)190Os 3180 200 55At21,69Ha44 2 190Ir(B+)190Os 2000 200 60Ka14* 2 190Au(B+)190Pt 4442 15 73Jo11 2 4087 55 4442 15 74Vi.A C 6.5 190Hg(B+)190Au 1915 80 1600# 100# 74Vi.A C -3.9 190Tlm(B+)190Hg 7170 300 6980# 340# 76Bi09* D -.6 *190Bim(a)186Tlm See 188Bim(a) AHW *190Ir(B+)190Os Upper limit 2450 from B+<0.002%,level at 1872 fed 69Ya03 *190Tlm(B+)190Hg E+=4180(300,Bi) to levels E(average)=1970 NDS 191Pb(a)187Hg 5403.4 50. 74Le02 6 191Bi(a)187Tlm 6443.1 5. 67Tr06*79Rytz 8 191Bim(a)187Tl 7007.0 20. 81Le23 7 191Ir(p,t)189Ir -5903 15 -5917 14 78Lo07 1 -.9 190Os(n,g)191Os 5758.8 1.3 5757.8 1.3 77Ca19,77Be15 1 -.7 191Os(B-)191Ir 315 2 312.7 1.9 48Sa18*51Ko17 1 -1.1 191Au(B+)191Pt 1830 50 76Vi.A 3 191Hg(B+)191Au 3335 50 75Un.A,76Vi.A 4 191Tlm(B+)191Hg 5140 200 4600# 320# 75Un.A* D -2.7 *191Bi(a)187Tlm E(a)=6305(5,Tr),6320(10,Le) 74Le02 *191Os(B-)191Ir E-=143(3,Sa),143(2,Ko),143(3,Na),145(3,Fe), 60Fe03,58Na15 *191Os(B-)191Ir E-=147(3,Pl) to 171.33 level 63Pl01,AHW *191Tlm(B+)191Hg E+=3820(200) to 300 Hg level 75Un.A 192Os O2-189Os 35Cl 24301 6 24306.5 3.0 70Mc03 H22 2.5 U .4 192Os 35Cl-190Os 37Cl 5984 3 5981.0 2.8 70Mc03 H22 2.5 1 -.4 192Pb(a)188Hg 5221.0 5. 79To06 5 192Bim(a)188Tlm 6181.0 5. 74Le02,67Tr06 7 192Po(a)188Pb 7322.8 20. 81Le23 6 192Os(p,t)190Os -4835 5 -4837.6 2.6 73Oo01 MIN - -.5 -4837 4 75Th04 - -.1 ave -4836 3 average 1 -.4 192Pt(p,t)190Pt -6629 7 -6634 6 80Ka19 1 -.7 192Os(t,a)191Re 10993 10 76Hi08 2 192Os(d,t)191Os -1265 15 -1304.3 2.8 77Be15 U -2.6 191Ir(n,g)192Ir 6220 10 6212 5 82Ra.A* 1 -.8 192Pt(p,d)191Pt -6448 6 78Be09,80Ka19 2 192Ir(B-)192Pt 1454.5 2.5 1454.0 2.4 65Jo04*77Ra17 1 -.2 192Au(B+)192Pt 3515 16 66Ny01,75Vi.B 2 192Hg(B+)192Au 1870 70 800# 200# 75Vi.B C -15.3 192Tl(B+)192Hg 6380 200 6020# 730# 75Un.A* B -1.8 *191Ir(n,g)192Ir E(g)=6141.0(.3) feeds level 20(10) above 58.0(.4) one 82Ra.A,AHW *192Ir(B-)192Pt Q-=1456.7(4,Jo),1453.3(3,Ra) AHW *192Ir(B-)192Pt Q-=1457(4,Jo),1453(3,Ra) AHW *192Tl(B+)192Hg E+=4940(200) to 422.8 state 75Un.A 193Bi(a)189Tlm 6020.0 5. 79Rytz*67Tr06 5 193Bim(a)189Tl 6617.4 10. 74Le02 4 193Po(a)189Pb 7107.6 50. 67Si09,77De32 8 193Pom(a)189Pbm 7146.4 10. 77De32*81Le23 9 193Ir(p,t)191Ir -5490 15 -5488 3 78Lo07 - .1 -5498.6 5. 82La22* - 2.1 ave -5498 5 average 1 2.1 192Os(n,g)193Os 5583.7 1.0 5583.9 1.0 78Be22,79Wa04 1 .2 192Pt(n,g)193Pt 6247 3 6247.2 2.8 68Sa13 1 .1 193Os(B-)193Ir 1132 5 1137 4 58Na15 1 1.0 193Pt(e)193Ir 56.3 .3 56.27 0.30 83Jo04 1 -.1 193Au(B+)193Pt 1355 20 1000# 100# 76Di15 B -17.7 193Hg(B+)193Au 2534 15 2339 30 76Di15 C -13.0 2339 30 R193Au 193Hgm 3 193Hgm(B+)193Au 2482 30 2480 30 58Br88 R -.1 193Hgm(it)193Hg 141.0 .5 NDS 4 *193Bi(a)189Tlm E(a)=5893(5,Tr),5900(10,Le) 74Le02 *193Pom(a)189Pbm E(a)=6995(10,De),7000(20,Le) AHW *193Ir(p,t)191Ir Ir(t,a) Q(191)-Q(193)=661(4.La),192Os(p,t)=-4837.6(2.6) AHW 194Bim(a)190Tlm 5733.6 50. 74Le02*70Ta14 7 194Po(a)190Pb 6990.4 6. 67Tr06,67Si09 9 194At(a)190Bim 7362.1 50. 81Ya.A 11 193Ir(n,g)194Ir 6067.0 0.4 6066.9 0.4 82Ra.A 1 -.2 194Pt(t,a)193Ir 12286 20 12280.9 1.8 78Ya07 U -.3 194Pt(p,d)193Pt -6141 4 -6147.2 1.8 78Be09 1 -1.5 194Os(B-)194Ir 97 2 64Wi07 2 194Ir(B-)194Pt 2251 2 2248.6 1.8 76Ra33 1 -1.2 194Au(B+)194Pt 2509 15 60Ba17 2 194Hg(e)194Au 40 20 81Ho18* 3 1 ITEM INPUT VALUE ADJUSTED VALUE REFERENCE LAB CF DG V/S 194Bim(it)194Bi 100 100 AHW 6 *194Bim(a)190Tlm E(a)=5610(20.Le),5620(20,Ta,corrected for calibration) 70Ta14,AHW *194Hg(e)194Au Q+=35 from T 1/2,14