244PU    248CM A DECAY                 1977BA69                  17NDS    201711
244PU  H TYP=FUL$AUT=C.D. Nesaraja$CIT=NDS 146, 387 (2017)$CUT=31-Aug-2017$
244PU c  1977Ba69: Enriched {+248}Cm isotope was prepared by evaporation on
244PU2c  glass substrate. The alpha decay were observed using the magnetic |a
244PU3c  spectrograph with FWHM= 5.0 keV. {+240}Pu was used as the
244PU4c  energy standard
244PU c  1967Sc32: Measured |a spectrum from decay of {+248}Cm
244PU cA E$Measured by 1977Ba69. The original energies are decreased
244PU2cA by 0.17 keV, as recommended by 1991Ry01 to account for changes in
244PU3cA the calibration energy.
244PU cA IA$|a intensity per 100 |a decays, measured by 1977Ba69.
244PU cA HF$r{-0}({+244}Pu)=1.4963 {I8} (1998Ak04) is used in the calculation
244PU cL E$Level energies are calculated from Q|a({+248}Cm)=5161.81 {I25}
244PU2cL (2017Wa10) and measured E|a's.
244PU cL J$From Adopted Levels
248CM  P 0.0         0+                3.48E+5 Y 6              5161.81   25
248CM cP T$From Adopted Levels of {+248}Cm (2014Ma86)
248CM cP QP$From 2017Wa10
244PU  N                       0.9161  16
244PU cN BR$From Adopted Levels of {+248}Cm (2014Ma86)
244PU  L 0.0          0+
244PU  A 5078.41   25 81.89  41 1.0
244PU cA E,IA$Other: 1967Sc32 E|a=5071 keV; I|a=81 %. 1991Ry01 has recommended
244PU2cA an energy increase of 6.0 keV to account for changes in the
244PU3cA calibration energy
244PU  L 44.2      4  2+
244PU  A 5034.89   25 18.03  19  2.32  5
244PU cA E,IA$Other: 1967Sc32 E|a=5029 keV; I|a=19 %. 1991Ry01 has recommended
244PU2cA an energy increase of 6.0 keV to account for changes in the
244PU3cA calibration energy
244PU  L 149.9     6  4+
244PU  A 4930.97   50 0.076  12  107   17
244PU  L 307.6     15 6+
244PU  A 4775.8    15 0.01   LE   63   GE