ENSDF decay dataset

 22NE    22NA EC DECAY                                           15NDS    201507
 22NE  H TYP=ERR$AUT=M.S. Basunia$DAT=22-Dec-2021$COM=Revised DSID 22NA B+ DECAY
 22NE2 H to 22NA EC DECAY.
 22NE  H TYP=ERR$AUT=M.S. Basunia$DAT=15-Nov-2019$COM=Corrected the
 22NE2 H $Q|b- value to 2843.20 keV {i17} and associated data in the dataset.
 22NE  H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 127, 69(2015)$
 22NE2 H CUT=1-Apr-2015$
 22NE c  Decay scheme from the Table de Radionuclides - CEA ISBN 2 {I7272} 0200
 22NE2c  {I8}, except as noted.  Produced by {+19}F(|a,n), {+24}Mg(d,|a).
 22NE c  Others: 2009Si18,2008Li02,2008Ru01,2006Li34,1983Ba41,1976Ma38,
 22NE2c  1968Le03.
 22NA  P 0.0         3+                2.6018 Y  22             2843.20   17
 22NE  N 1.0                   1.0       1.0
 22NE cN NR$From |SI(|g+ce) to (g.s.)=100
 22NE PN                                                                     3
 22NE tL $             KLL Auger electron data from 2007In06
 22NE tL $
 22NE tL $The absolute energy of the KL{-2}L{-3}({+1}D) Auger transition is
 22NE tL $824.5 eV {I19} relative to Fermi level. This energy is higher by about
 22NE tL $20 eV compared to that obtained in experiments with free Ne atoms.
 22NE tL $
 22NE tL $---------------------------------------------------------------------
 22NE tL $Transitions        Relative energies     Relative intensities
 22NE tL $                           (in eV)              (KL{-i}L{-j}/|SKLL,%)
 22NE tL $---------------------------------------------------------------------
 22NE tL $KL{-1}L{-1}({+1}S)        -56.0 {I2}                  6.2 {I4}
 22NE tL $KL{-1}L{-2}({+1}P)        -32.7 {I1}                 16.8 {I7}
 22NE tL $KL{-1}L{-3}({+3}P)        -21.9 {I2}                  6.8 {I5}
 22NE tL $KL{-2}L{-2}({+1}S)         -4.3 {I5}                  8.5 {I10}
 22NE tL $KL{-2}L{-3}({+1}D)          0                     61.7 {I17}
 22NE tL $Unknown          +18.5 {I5}                  2.8 {I5}
 22NE tL $---------------------------------------------------------------------
 22NE tL $
 22NE  L 0           0+                STABLE
 22NE  E               0.055 14 0.0009825  14.92 11             0.056     14 2U
 22NES E EAV=835.46$CK=0.016146 6$CL=0.0013378 5$CM+=1.8761E-5 7
 22NE cE           1996Sa06 measured I|e=0.07 {I2}
 22NE  L 1274.53   7 2+
 22NE  E               89.90 9   10.04 9  7.41                  99.944    14
 22NES E EAV=216.012 76$CK=0.0927 1$CL=0.007674 8$CM+=0.0001076 1
 22NE cE $|e/|b+=0.1071 {I5}, weighted average of measured values:
 22NE2cE 0.1084 {I27} (2009Na08), 0.1050 {I29} (1990Ku11), 0.1075 {I25}
 22NE3cE (1986Sy01), 0.1079 {I3} (1983Ba41), 0.1128 {I57} (1977Bo10); 0.1077
 22NE4cE {I6} (1976Ma38), 0.1042 {I10} (1968We02), 0.1048 {I7} (1967Le07),
 22NE5cE 0.1041 {I10} (1964Wi04), 0.112 {I4} (1959Ra09), and 0.110 {I6}
 22NE6cE (1954Sh31). Theoretical value |e/|b+=0.1152 {I3} (1978Fi11). Note
 22NE7cE I|e/I|b+=0.1064 {I2}, I|e and I|b+ obtainted using the Log {Ift} code
 22NE8cE available at NNDC, BNL website.
 22NE  G 1274.537  7 99.940  14 E2                     2.8E-05 3
 22NE cG E$From 2000He14
 22NE cG CC$|a(tot)=6.8|*10{+-4}, from experimental value of 1985HaZA.
 22NE2cG Interpolated value is 6.8|*10{+-6} from tables of 1976Ba63. Internal
 22NE3cG pair formation coefficient |a{-|p}=2.1|*10{+-5} {I3} (1979Sc31).
 22NExcG |a=|a(tot)+|a{-|p}.