28SI 28P EC DECAY 1996OG01,1982WA05 13NDS 201310
28SI H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 114, 1189 (2013)$
28SI2 H CUT=1-Apr-2013$
28SI C Others: 1979Ho27, 1972De28, 1972Wi23, 1968Ar03
28SI C Sum of decay energies of this dataset is 14344 keV {I71} cf.
28SI2C 14345.1 keV {I12} obtained from 28P EC DECAY ^Q(g.s.) and branching.
28SI C 1996OG01: 28P was produced bombarding natural Si target with proton
28SI2C beams, 28SI(P,N), E=28 and 45 MeV; helium jet transport, particle
28SI3C telescope; measured delayed proton and |a spectrum; deduced B+ feeding
28SI4C to 28SI levels.
28SI C 1982Wa05: 28P was produced from 28SI(P,N) reaction, E=18 MeV; G rays
28SI2C were measured using Ge(Li) and NaI(Tl) escape-suppressed spectrometer;
28SI3C Measured EG, RI and deduced B+ feeding to 28SI levels.
28SI CG E,RI$From 1982Wa05, 1972De28, and 1972Wi23. G-ray intensities are
28SI2CG converted for 100 28P EC DECAY. G-ray intensities for expected G rays
28SI3CG are calculated from G-ray branchings and intensity balance of the
28SI4CG deexciting level.
28SI CL E$From a least-squares fit to G-ray energies, except otherwise noted.
28SI2CL Expected G-ray energies are calculated, recoil energy subtracted, after
28SI3CL the least-squares fit. Level energies 11515 keV and above are from
28SI4CL 1996Og01.
28SI CL J$From Adopted Levels
28P P 0 3+ 270.3 MS 5 14345.1 12
28SI N 1.0 1.0 1.0
28SI PN 3
28SI L 0.0 0+
28SI L 1779.030 112+
28SI E 69.1 7 0.002103 4.851 5 69.1 7
28SIS E EAV=5548.46 60$CK=2.7685E-5 9$CL=2.5076E-6 8$CM+=2.4276E-7 8
28SI G 1778.969 11 97.5 5
28SI L 4617.53 144+
28SI E 1.29 18 5.99 6 1.29 18
28SIS E EAV=4138.17 60
28SI G 2838.29 15 2.35 5
28SI L 4980.0 30+
28SI G 3200.7 5 0.186 9
28SI L 6276.40 153+
28SI E 7.6 4 0.0010 1 4.788 23 7.6 4
28SIS E EAV=3317.06 60$CK=0.000120$CL=1.0850E-5 6$CM+=1.0504E-6 6
28SI G 1658.81 0.80 17 ?
28SI G 4496.92 25 11.0 3
28SI L 6878.79 8 3- S
28SI G 2261.07 0.0003LT S
28SI G 5098.77 0.005LT S
28SI G 6876.99 0.009LT S
28SI2 G FL=0.0
28SI L 6887.65 104+ S
28SI G 611.24 0.0004LT S
28SI G 2269.92 0.0005LT S
28SI G 5107.63 0.042LT S
28SI L 7380.59 9 2+ S
28SI G 2400.37 0.0001LT S
28SI G 5600.37 0.027LT S
28SI2 G FL=1779.030
28SI G 7378.52 0.015LT S
28SI2 G FL=0.0
28SI L 7415.9 52+
28SI E 0.19 6 6.03 14 0.19 6
28SIS E EAV=2755.88 64
28SI G 5635.66 0.01 CA S
28SI G 7415.6 7 0.21 6
28SI L 7799.21 153+
28SI E 2.44 9 4.787 16 2.44 9
28SIS E EAV=2566.90 60
28SI G 911.53 .004 CA S
28SI G 1522.78 10 0.86 3
28SI G 3181.3 4 0.032 3
28SI G 6019.47 25 1.75 8
28SI L 7933.52 212+
28SI E 2.84 20 4.67 3 2.84 20
28SIS E EAV=2500.98 60
28SI G 1657.1 0.40 17
28SI G 2953.35 250.081 3
28SI G 3315.6 4 0.101 6
28SI G 6154.2 4 0.112 10
28SI G 7932.1 4 2.15 11
28SI L 8259.0 42(+)
28SI E 0.537 11 5.269 9 0.537 11
28SIS E EAV=2341.45 62
28SI G 3278.8 5 0.098 4
28SI G 3641.0 0.002 CA S
28SI G 6479.1 6 0.385 8
28SI G 8257.8 6 0.052 6
28SI L 8588.80 173+
28SI E 3.64 11 0.001565 4.303 14 3.64 11
28SIS E EAV=2180.14 60$CK=0.0003894 3$CL=3.528E-5 3$CM+=3.416E-6 3
28SI G 2312.3 1 0.196 6
28SI G 3970.9 0.116 24
28SI G 6808.9 4 3.33 11
28SI L 9315.78 193+
28SI E 11.3 4 0.0079 3 3.478 16 11.3 4
28SIS E EAV=1826.05 59$CK=0.0006387 6$CL=5.788E-5 6$CM+=5.603E-6 5
28SI G 1516.5 4 0.204 14
28SI G 3039.16 172.70 7
28SI G 7535.7 4 8.5 3
28SI L 9381.2 42+
28SI E 0.59 3 4.728 23 0.59 3
28SIS E EAV=1794.30 62
28SI G 3104.4 4 0.024 4
28SI G 7601.3 6 0.55 3
28SI G 9380.4 200.0202 25
28SI L 9479.1 9 (2+)
28SI E 0.065 7 5.64 5 0.065 7
28SIS E EAV=1746.84 73
28SI G 2063.04 0.0003 CA S
28SI G 2098.34 0.0004 CA S
28SI G 4498.33 0.003 CA S
28SI G 4860.67 0.004 CA S
28SI G 7697.81 0.002 CA S
28SI G 9477.4 9 0.055 7
28SI L 9795.8 10 (2+)
28SI E 0.053 7 5.4E-5 7 5.56 6 0.053 7
28SIS E EAV=1593.69 76$CK=0.0009332 1$CL=8.457E-5 12$CM+=8.187E-6 11
28SI G 8015.5 100.040 6
28SI G 9791 4 0.013 3 ?
28SI L 10208.8 15 (3+)
28SI E 0.029 4 4.3E-5 6 5.57 6 0.029 4
28SIS E EAV=1394.99 93$CK=0.0013521 2$CL=0.00012254$CM+=1.1863E-5 2
28SI G 8428.4 150.029 4
28SI L 10667.99 23(2 TO 4)+
28SI E 0.30 1 0.000722 4.250 15 0.30 1
28SIS E EAV=1175.80 58$CK=0.002177 3$CL=0.0001973 3$CM+=1.910E-5 3
28SI G 1352.15 150.140 2
28SI G 2734.19 0.003 CA S
28SI G 3252.6 7 0.032 3
28SI G 3286.99 0.006 CA S
28SI G 3779.80 0.02 CA S
28SI G 4390.86 0.015 CA S
28SI G 8887.3 8 0.086 8
28SI L 11515 1 (2+)
28SI E 7.6E-5 20 5.8E-7 15 7.11 12 7.7E-5 20
28SIS E EAV=778.27 73$CK=0.006906 18$CL=0.0006261 1$CM+=6.062E-5 16
28SI L 11657 1 (2+)
28SI E 0.000246 2.3E-6 6 6.47 11 2.4E-4 6
28SIS E EAV=712.87 72$CK=0.00884 3$CL=0.0008019 2$CM+=7.764E-5 22
28SI L 11931 1 5
28SI E 0.0009 LT 2.E-5 LT 5.6 GT 9E-4 LT
28SIS E EAV=588.24 71$CK=0.01526 6$CL=0.001384 5$CM+=0.0001340 5
28SI L 12071 1 (2+)
28SI E 8.7E-5 21 2.1E-6 5 6.37 11 8.9E-5 22
28SIS E EAV=525.30 70$CK=0.02107 8$CL=0.001910 8$CM+=0.0001850 7
28SI L 12289 1 (2+)
28SI E 0.0006817 2.9E-5 7 5.13 11 7.1E-4 18
28SIS E EAV=428.61 69$CK=0.03766 18$CL=0.003416 16$CM+=0.0003308 1
28SI L 12443 1 (2+)
28SI E 0.0011 3 8.1E-5 20 4.63 11 1.2E-3 3
28SIS E EAV=361.45 68$CK=0.0612 4$CL=0.00555 3$CM+=0.000538 3
28SI L 12550 1 (4+)
28SI E 6.4E-5 6 7.0E-6 7 5.64 5 7.1E-5 7
28SIS E EAV=315.44 67$CK=0.0898 6$CL=0.00814 5$CM+=0.000789 5
28SI L 12573 1 (2+)
28SI E 0.000348 4.1E-5 10 4.86 11 3.8E-4 9
28SIS E EAV=305.62 67$CK=0.0980 6$CL=0.00889 6$CM+=0.000861 6
28SI L 12714 1 (0+,1+)
28SI E 2.2E-5 6 5.2E-6 14 5.68 12 2.7E-5 7
28SIS E EAV=246.08 66$CK=0.1754 12$CL=0.01592 11$CM+=0.001541 11
28SI L 12725 1 (2+)
28SI E 0.000155 3.8E-5 12 4.81 14 1.9E-4 6
28SIS E EAV=241.48 66$CK=0.1842 13$CL=0.01671 12$CM+=0.001618 12
28SI L 12899 1 (4+)
28SI E 9.E-5 3 7.2E-5 22 4.44 14 1.6E-4 5
28SIS E EAV=169.78 64$CK=0.407 3$CL=0.0369 3$CM+=0.00357 3
28SI L 13093 4 (4+)
28SI E 2.9E-6 15 2.0E-5 10 4.87 23 0.23E-4 12
28SIS E EAV=92.3 17$CK=0.796 7$CL=0.0722 6$CM+=0.00699 6