McMaster Mass Compilation 03
Compiler: Balraj Singh, Scott Geraedts, McMaster Univ., CanadaContact: Balraj Singh; ndgroup@mcmaster.ca
Date: March 1, 2009
Compiled Data from papers during July 2008 to February 2009
References:
NSR Key# Citation Author Title Method Facility 2008FA11 PR-C 78, 022801(R) J. Fallis "Determination of the proton separation Penning Trap ANL-CPT et al. energy of 93Rh from mass measurements" 2008SU19 NP-A 812, 1 B. Sun "Nuclear Structure studies of short-lived Isochronous mass GSI-FRS-ESR et al. neutron-rich nuclei with the novel large- spectroscopy scale isochronous mass spectrometry at the FRS-ESR facility" 2008GO23 PR-C 78, 014311 M.B. Gomez-Hornillos "Direct mass measurements of 68Se and 80Y" Time-of-flight, GANIL et al. cyclotron spectr. 2008KA30 PRL 101, 014503 A. Kankainen "Mass Measurements and Implications for the Penning Trap JYFL-JYFLTRAP et al. Energy of the High-Spin Isomer in 94Ag" 2008SM03 PRL 101, 202501 M. Smith "First Penning-Trap Mass Measurement of the Penning Trap TRIUMF-TITAN et al. Exotic Halo Nucleus 11Li" 2008WE10 PR-C 78, 054310 C. Weber "Mass Measurements in the vicinity of the rp- Penning Trap JYFL-JYFLTRAP et al. process and the (nu)p-process paths with the GSI-SHIPTRAP Penning Trap facilities JYFLTRAP and SHIPTRAP" 2008BA54 PRL 101, 262501 S. Baruah "Mass Measurements beyond the Major r-Process Penning Trap CERN-ISOLTRAP et al. Waiting Point 80Zn" 2008GE07 PRL 101, 252502 W. Geithner "Masses and Charge Radii of 17-22Ne and the Penning Trap CERN-ISOLTRAP et al. Two-Proton-Halo Candidate 17Ne" NUCLIDE LEVEL- HALF-LIFE SPIN- MEASURED AME-2003 (MEASURED)- REFERENCE ENERGY PARITY MASS EXCESS MASS EXCESS (AME-2003) (keV) (keV) (keV) (keV) 8Li 0 840.3 ms 2+ 20945.80(11) 20946.84(9) -1.04 2008SM03: PRL 101, 202501 9Li 0 178.3 ms 3/2- 24954.91(20) 24954.3(19) 0.6 2008SM03: PRL 101, 202501 11Li 0 8.75 ms 3/2- 40728.28(64) 40797(19) -69 2008SM03: PRL 101, 202501 17Ne 0 109.2 ms 1/2- 16501.18(53) 16461(27) 40 2008GE07: PRL 101, 252502 18Ne 0 1.672 s 0+ 5317.62(36) 5317.17(28) 0.45 2008GE07: PRL 101, 252502 19Ne 0 17.296 s 1/2+ 1751.92(15) 1751.44(29) 0.48 2008GE07: PRL 101, 252502 20Ne 0 stable 0+ -7041.9272(18) -7041.9313(18) 0.0041 2008GE07: PRL 101, 252502 21Ne 0 stable 3/2+ -5731.78(4) -5731.78(4) 0 2008GE07: PRL 101, 252502 33Al 0 41.7 ms 5/2+sys -8304(119) -8530(70) 226 2008SU19: NP-A 812, 1 64Ga 0 2.627 min 0(+sys) -58720(115) -58834.3(20) 114 2008GO23: PR-C 78, 014311 64Zn 0 stable 0+ -66050(45) -66003.6(7) -46 2008GO23: PR-C 78, 014311 68As 0 151.6 s 3+ -58750(100) -58900(40) 150 2008GO23: PR-C 78, 014311 68Ge 0 270.95 d 0+ -67010(60) -66980(6) -30 2008GO23: PR-C 78, 014311 68Se 0 35.5 s 0+ -53980(260) -54210(30) 230 2008GO23: PR-C 78, 014311 71Zn 157.7 3.96 h 9/2+ -67171.2(24) -67169(10) -2.2 2008BA54: PRL 101, 262501 72Se 0 8.40 d 0+ -67730(120) -67894(12) 164 2008GO23: PR-C 78, 014311 72Zn 0 46.5 h 0+ -68145.4(21) -68131(6) -14 2008BA54: PRL 101, 262501 73Zn 0 23.5 s (1/2)- -65593.4(19) -65410(40) -183 2008BA54: PRL 101, 262501 74Zn 0 95.6 s 0+ -65756.7(25) -65710(50) -47 2008BA54: PRL 101, 262501 75Zn 0 10.2 s 7/2+sys -62558.9(19) -62470(70) -89 2008BA54: PRL 101, 262501 76Kr 0 14.8 h 0+ -69000(55) -69014(4) 14 2008GO23: PR-C 78, 014311 76Rb 0 36.5 s 1(-) -60240(190) -60479.8(19) 240 2008GO23: PR-C 78, 014311 76Zn 0 5.7 s 0+ -62302.5(18) -62140(80) -162 2008BA54: PRL 101, 262501 77Zn 0 2.08 s 7/2+sys -58789.1(23) -58720(120) -69 2008BA54: PRL 101, 262501 78Zn 0 1.47 s 0+ -57483.4(28) -57340(90) -143 2008BA54: PRL 101, 262501 79Ga 0 2.847 s 3/2-sys -62470(120) -62510(100) 40 2008SU19: NP-A 812, 1 79Zn 0 995 ms (9/2+) -53435.1(39) -53420(260)sys -15 2008BA54: PRL 101, 262501 80Ga 0 1.697 s (3) -59095(120) -59140(120) 45 2008SU19: NP-A 812, 1 80Sr 0 106.3 min 0+ -70360(70) -70308(7) -52 2008GO23: PR-C 78, 014311 80Y 0 30.1 s 4- -61045(180) -61220(180) 175 2008GO23: PR-C 78, 014311 80Zn 0 545 ms 0+ -51648.3(28) -51840(170) 192 2008BA54: PRL 101, 262501 81Zn 0 290 ms 5/2+sys -46199.6(50) -46130(300)sys -70 2008BA54: PRL 101, 262501 82Ge 0 4.55 s 0+ -65577(120) -65620(240) 43 2008SU19: NP-A 812, 1 83As 0 13.4 s 3/2-sys -69561(120) -69880(200) 319 2008SU19: NP-A 812, 1 83Ge 0 1.85 s 5/2+sys -60804(120) -60900(200)sys 96 2008SU19: NP-A 812, 1 84As 0 (+m) 4.02 s (3)(+sys) -65869(119)* -66080(300)sys 211 2008SU19: NP-A 812, 1 84Y 0 (+m) 4.6 s 1+ -73922(19)** -74160(90) 238 2008WE10: PR-C 78, 054310 85As 0 2.021 s 3/2-sys -63236(120) -63320(200)sys 84 2008SU19: NP-A 812, 1 86As 0 945 ms -58860(120) -59150(300)sys 290 2008SU19: NP-A 812, 1 86Se 0 15.3 s 0+ -70516(119) -70541(16) 25 2008SU19: NP-A 812, 1 87Se 0 5.50 s 5/2+sys -66469(119) -66580(40) 111 2008SU19: NP-A 812, 1 87Zr 0 1.68 h (9/2)+ -79341.4(53) -79348(8) 7 2008WE10: PR-C 78, 054310 88Br 0 (+m) 16.36 s (2-,1+) -70629(120)* -70730(40) 101 2008SU19: NP-A 812, 1 88Mo 0 8.0 min 0+ -72686.5(38) -72700(20) -14 2008WE10: PR-C 78, 054310 88Se 0 1.53 s 0+ -63859(120) -63880(50) 21 2008SU19: NP-A 812, 1 88Tc 0 (+m) 5.8 s (2,3) -61679(87)@ -62710(200)sys 1031 2008WE10: PR-C 78, 054310 89Mo 0 2.11 min (9/2+) -75015.0(39) -75004(15) -11 2008WE10: PR-C 78, 054310 89Se 0 410 ms 5/2+sys -58955(120) -59200(300)sys 245 2008SU19: NP-A 812, 1 89Tc 0 12.8 s (9/2+) -67394.8(37) -67840(200)sys 445 2008WE10: PR-C 78, 054310 90Ru 0 11 s 0+ -64883.3(40) -65310(300)sys 427 2008WE10: PR-C 78, 054310 90Tc 0 8.7 s 1+ -70723.7(34) -71210(240) 486 2008WE10: PR-C 78, 054310 91Ru 0 9 s (9/2+) -68237.1(29) -68660(580)sys 423 2008WE10: PR-C 78, 054310 91Tc 0 3.14 min (9/2)+ -75984.8(33) -75980(200) -5 2008WE10: PR-C 78, 054310 92Rh 0 4.3 s (6+) -62998.6(43) -63360(400)sys 361 2008KA30: PRL 101,142503 92Rh 0 (+m) 4.3 s (6+) -62999(15)& -63360(400)sys 361 2008WE10: PR-C 78, 054310 92Ru 0 3.65 min 0+ -74306.7(46) -74410(300)sys 103 2008FA11: PR-C 78, 022801(R) 92Ru 0 3.65 min 0+ -74299.0(32) -74410(300)sys 111 2008WE10: PR-C 78, 054310 92Tc 0 4.25 min (8)+ -78924.7(37) -78935(26) 10 2008WE10: PR-C 78, 054310 93Pd 0 1.07 s (9/2+) -59440(160) -59700(400)sys 260 2008KA30: PRL 101,142503 93Rh 0 13.9 s 9/2+sys -69024.6(74) -69170(400)sys 145 2008FA11: PR-C 78, 022801(R) 93Rh 0 13.9 s 9/2+sys -69011.3(39) -69170(400)sys 159 2008WE10: PR-C 78, 054310 93Ru 0 59.7 s (9/2)+ -77214.0(40) -77270(90) 56 2008WE10: PR-C 78, 054310 94Ag 0 37 ms 0+sys -53330(360) -53300(500)sys -30 2008KA30: PRL 101,142503 94Pd 0 9.0 s 0+ -66097.9(47) -66350(400)sys 252 2008KA30: PRL 101,142503 94Pd 0 9.0 s 0+ -66097.9(42) -66350(400)sys 252 2008WE10: PR-C 78, 054310 94Rh 0 70.6 s (2+,4+) -72907.5(42) -72940(450)sys 33 2008WE10: PR-C 78, 054310 94Ru 0 51.8 min 0+ -82580.6(41) -82568(13) -13 2008WE10: PR-C 78, 054310 95Pd 0 10 s sys 9/2+sys -69961.6(48) -70150(400)sys 188 2008WE10: PR-C 78, 054310 95Pd 1875(7)# 13.3 s (21/2+) -68086.2(47) -68290(300) 204 2008WE10: PR-C 78, 054310 95Rh 0 5.02 min (9/2)+ -78342.3(42) -78340(150) -2 2008WE10: PR-C 78, 054310 96Pd 0 122 s 0+ -76179.0(47) -76230(150) 51 2008WE10: PR-C 78, 054310 100Y 0 (+m) 735 ms 1-,2- -67264(119)* -67290(80) 26 2008SU19: NP-A 812, 1 113Ru 0 (+m) 800 ms (5/2+) -71931(120)* -72200(70) 269 2008SU19: NP-A 812, 1 122Ag 0 (+m) 520 ms (3+) -71065(120)* -71230(210)sys 165 2008SU19: NP-A 812, 1 123Ag 0 296 ms (7/2+) -69377(121) -69960(210)sys 583 2008SU19: NP-A 812, 1 125Cd 0 (+m) 650 ms 3/2+sys -73287(120)* -73360(70) 73 2008SU19: NP-A 812, 1 131Sn 0 (+m) 56.0 s (3/2+) -77238(120)* -77314(21) 76 2008SU19: NP-A 812, 1 132Sb 0 (+m) 2.79 min (4+) -79870(124)* -79674(14) -196 2008SU19: NP-A 812, 1 133Sb 0 2.5 min (7/2+) -78986(120) -78943(25) -43 2008SU19: NP-A 812, 1 134Te 0 41.8 min 0+ -82758(121) -82559(11) -199 2008SU19: NP-A 812, 1 135Sb 0 1.68 s (7/2+) -69809(121) -69710(100) -99 2008SU19: NP-A 812, 1 135Te 0 19.0 s (7/2-) -77725(123) -77830(90) 105 2008SU19: NP-A 812, 1 137I 0 24.13 s (7/2+) -76518(121) -76503(28) -15 2008SU19: NP-A 812, 1 137Te 0 2.49 s 3/2-sys -69290(120) -69560(120) 270 2008SU19: NP-A 812, 1 138Te 0 1.4 s 0+ -65755(122) -65930(210)sys 175 2008SU19: NP-A 812, 1 139I 0 2.282 s 7/2+sys -68527(121) -68840(30) 313 2008SU19: NP-A 812, 1 140I 0 860 ms (3)(-sys) -63596(121) -64270(200)sys 676 2008SU19: NP-A 812, 1 140Xe 0 13.60 s 0+ -72870(121) -72990(60) 120 2008SU19: NP-A 812, 1 141I 0 430 ms 7/2+sys -60301(128) -60520(200)sys 219 2008SU19: NP-A 812, 1 141Xe 0 1.73 s 5/2 (-sys) -68521(127) -68330(90) -191 2008SU19: NP-A 812, 1 143Xe 0 511 ms 5/2- -60253(124) -60450(200)sys 197 2008SU19: NP-A 812, 1 146Ba 0 2.22 s 0+ -65170(131) -65000(70) -170 2008SU19: NP-A 812, 1 sys Systematics in AME-2003 (+m) Mass measurement possibly contains mixture of g.s.+isomer state. # From mass measurements in 2008We10; 1875.7(6) in high-spin work of 2003Ma24: PR-C 67, 061301(R) (2003) * Value is for possible unresolved ground state and isomer. @ Original uncertainty of 3.8 keV increased by authors for unknown mixture of g.s. and isomer. & Original uncertainty of 4.3 keV increased by authors for unknown mixture of g.s. and isomer. ** Original value of -73888.8(52) revised by the authors for unknown mixture of g.s. and isomer.