28NA 28NE B- DECAY 2006TR02,2005TR05,1999RE1613NDS 201310
28NA H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 114, 1189 (2013)$
28NA2 H CUT=1-Apr-2013$
28NA C Sum of decay energies of this dataset is 12041 keV {I463} cf.
28NA2C 12280 keV {I10} obtained from 28NE B- DECAY ^Q(g.s.) and branching.
28NA C 2006TR02,2005TR05: 28NE isotope was produced from fragmentation of 48CA
28NA2C beam on a Be target, E=140 MeV/nucleon at ^NSCL; Fragments were
28NA3C separated by ^A1900 fragment separator and identified by energy loss in
28NA4C a DE-E detector and time of flight; Detector: double sided Si
28NA5C microstrip detector (^DSSD), ^SeGA array of 12 HPGe detectors, B-
28NA6C counting system (BCS); Measured EG, EB, RI, IB, B-GG coin.
28NA C 1999Re16: 28NE was produced by TA(36S,X), E(36S)=2.8 GEV, reaction;
28NA2C Magnetic Spectrometer (^LISE3); nuclides were identified by ^TOF and
28NA3C energy loss in Si; Detector: 6 Si, 4 HPGe and 42 3HE proportional
28NA4C counters; Measured: EG, RI, BG COIN, T, B-N.
28NA C All data are from 2006Tr02, unless otherwise stated
28NA CB IB$From G-ray intensity balance to each level and the total number of
28NA2CB B-correlated decay events obtained from a fit to decay curves
28NA3CB (2006Tr02).
28NA CG RI$Based on a private communication (via e-mail) between ^XUNDL
28NA2CG compiler and V. Tripathi, dated May 9, 2006.
28NA CL E$From a least-squares fit to G-ray energies, DE{-|g}=1 keV is assumed
28NA2CL by the evaluator.
28NA CL J(A)$Assigned by the evaluator from LOGFT values
28NE P 0.0 0+ 20 MS 1 12.28E3 10
28NA N 1 1 1
28NA CN NR$From 2006Tr02
28NA PN 3
28NA L 0.0 1+
28NA CL J$From Adopted Levels.
28NA B 55 5 4.2 1
28NAS B EAV=5880 50
28NA L 55.2 5
28NA CL J$(2+) predicted by shell-model calculations
28NA B 2 LT 5.6 GT
28NAS B EAV=5853 50
28NA G 55 14.6 15 C
28NA L 1131.2 7
28NA B 0.5 LT 6.0 GT
28NAS B EAV=5320 50
28NA G 1076 1.41 20 C
28NA G 1131 1.28 19
28NA L 1254.2 6 (2+)
28NA CL J From Adopted Levels
28NA B 0.5 LT 6.0 GT
28NAS B EAV=5260 50
28NA G 1200 1.23 19 C
28NA G 1255 3.2 3 C
28NA L 1932.2 7 (1+) A
28NA CL J From LOGFT=5.3
28NA B 1.7 4 5.3 1
28NAS B EAV=4924 50
28NA G 1877 1.8 3
28NA G 1932 1.58 25
28NA L 2118.4 5 (1+)
28NA CL J$From strong B feeding to this state (2006Tr02)
28NA B 20.1 12 4.2 1
28NAS B EAV=4832 50
28NA G 864.5 4 4.4 4 C
28NA CG E$From 1999Re16. Other: 863 keV (2006Tr02). The G ray is placed from a
28NA2CG 2927 keV level (JPI=1+) in 1999Re16.
28NA G 2062.9 3 15.6 11 C
28NA CG E$From 1999Re16. The G ray is placed from a 2063 keV level (JPI=1+) in
28NA2CG 1999Re16. Other: 2063 keV (2006Tr02).
28NA G 2118 1.34 24
28NA L 2714.3 6 (1+)
28NA CL J$From strong B feeding to this state (2006Tr02)
28NA B 8.5 6 4.5 1
28NAS B EAV=4537 50
28NA G 596 1.29 16
28NA G 782 1.68 20
28NA G 1459 ?
28NA G 1583 2.35 30 C
28NA G 2659 1.29 25 C
28NA G 2714 1.9 3
28NA L 3286.4 12 (1+) A
28NA CL J From LOGFT=5.2
28NA B 1.3 3 5.2 1
28NAS B EAV=4254 50
28NA G 3231 1.26 27
28NA L 3512.5 12 (1+) A
28NA CL J LOGFT=5.3
28NA B 0.9 2 5.3 1
28NAS B EAV=4143 50
28NA G 3457 0.94 23
28NA L 3543 GT
28NA B 12 1 4.1 LT
28NAS B EAV=4103 75
28NA CB IB$total B- feeding to states above ^S(n)(28NA)=3542
28NA L 10270 GT
28NA B 3.7 5 1.7 LT
28NAS B EAV=817 71
28NA CB IB$total B- feeding to states above ^S(2n)(28NA)=10270