168IR    172AU A DECAY (22 MS)         2009HA42                  10NDS    201008
168IR  H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 111, 1807 (2010)$CUT=15-Jun-2010$
168IR C  2009HA42: 172AU SOURCE FROM 96RU(78KR,PNG),
168IR2C  E=342, 348 MEV; 96% ENRICHED 96RU TARGET FOLLOWED BY ^C
168IR3C  CHARGE RESET FOIL; IN-FLIGHT MASS SEPARATION USING ^RITU GAS-FILLED
168IR4C  SEPARATOR; FUSION-EVAPORATION RESIDUES IMPLANTED IN 2 DOUBLE-SIDED Si
168IR5C  STRIP DETECTORS IN THE ^GREAT SPECTROMETER (WHICH ALSO INCLUDES A
168IR6C  MULTIWIRE PROPORTIONAL COUNTER, 28 Si ^PIN DIODE DETECTORS, A SEGMENTED
168IR7C  PLANAR Ge DETECTOR AND A HPGe CLOVER DETECTOR) AT THE ^RITU FOCAL
168IR8C  PLANE; MEASURED EA, |a(t), |a CORRELATIONS.
168IR CA HF        IF R0=1.556 3, UNWEIGHTED AVERAGE OF R0(166OS)=1.5638 12
168IR2CA (2008BA14), R0(168OS)=1.557 4 AND R0(168PT)=1.556 3 (THIS EVALUATION),
168IR3CA AND R0(170PT)=1.548 12 (2002BA93) (WEIGHTED AVERAGE IS 1.5562 19).
172AU  P 0.0                           22 MS     +6-4           6923      10
172AU CP T         FROM 6762|a(t) (2009HA42).
172AU CP J         POSSIBLY (3-), ANALOGOUS TO THAT SUGGESTED BY 2004GOZZ FOR
172AU2CP 174AU AND 176AU (2009HA42).
168IR  N                       1.0     AP
168IR CN BR        |a DECAY ONLY HAS BEEN OBSERVED BUT proton AND EC+B+ decay
168IR2CN are possible.   T1/2(EC+B+) AP 0.9 S (1973TA30) from gross BETA DECAY
168IR3CN THEORY AND 0.27 S (1997MO25) IMPLY %EC+%B+ AP 2.4% AND 8.1%,
168IR4CN RESPECTIVELY.
168IR  L 0.0                           222 MS    +60-40
168IR CL T         ADOPTED VALUE; FROM 6230|a(t) (2009HA42).
168IR  A 6762      10 100      3.1     AP
168IR CA HF        3.1 9 IF %A(172AU)=100.
168IR CA E         FROM 2009HA42; THIS EA IMPLIES QA(172AU)=6923 10 IF THIS IS
168IR2CA A GS TO GS TRANSITION (cf. 7034 50 FROM 2003AU03, 2009AUZZ).
168IR CA           CORRELATED WITH 6230A FROM 168IR GS, 5780A FROM 164RE GS AND
168IR2CA 5320A FROM 160TA.