284NH 288MC A DECAY (0.17 S) 2004OG03,2013OG01,2013RU1119NDS 201902
284NH H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 156, 148 (2019)$CUT=31-Jan-2019$
284NH c See {+288}Mc Adopted Levels for details of production of the isotope.
284NH c Possible decay scheme with |g transition(s) is proposed by 2015Ru11.
284NH c 2015Ru11 propose three scenarios for the decay scheme of {+288}Mc:
284NH2c 1. 100% |a decay to a level at 105 keV, which then decays by 105-keV
284NH3c transition to the g.s. 2. 25% |a decay to each of the four excited
284NH4c states, one at 105 keV (as in scenario 1), second at 290 keV,
284NH5c and two levels between the 105- and 290-keV levels, with a cascade of
284NH6c four |g transitions, but only the 105-keV transition is possibly seen
284NH7c in 2013Ru11. 3. Same as scenario 2, except that 100% |a decay to the
284NH8c proposed 290-keV level.
288MC P 0 0.17 S 2 10750 50
288MC cP T$From {+288}Mc Adopted Levels
288MC cP QP$From 2017Wa10. Note that experimental Q(|a)=10.65 MeV {I1} in
288MC2cP 2017Og01 and 10.63 MeV {I1} in 2015Og05.
284NH N 1.0 AP
284NH L 0 0.97 S +12-10
284NH cL T$from Adopted Levels
284NH L 105 1 ?
284NH cL $Tentative level proposed by 2015Ru11
284NH cL E$in order to explain photon events, 2013Ru11 argue that {+288}Mc
284NH2cL decays by one |a branch to an excited state in {+284}Nh, which then
284NH3cL cascades down to the ground state of {+284}Nh via a few highly
284NH4cL converted |g-transitions with energies below the K-shell binding
284NH5cL energy of Nh atom.
284NH A 10.3E3 1 100 ?
284NH cA E$from 2013Ru11. Others: 10.21 to 10.67 MeV (2017Og01 review);
284NH2cA 10.3 to 10.6 MeV (2016Fo10); 10.29 to 10.58 MeV (2015Og05 review).
284NH3cA Assumed as |a transition from {+288}Mc g.s. to 105-keV level in
284NH4cA {+284}Nh
284NH G 105 1 ?
284NH cG E$2015Ru11 state that this |g ray may have been seen in their 2013Ru11
284NH2cG work.