6533b850fe1ef96bd12a81a2

RESEARCH PRODUCT

Investigations into the alpha-decay of 195At

K. EskolaMatti LeinoHeikki KettunenHannu KoivistoT. EnqvistPaivi NieminenK. HelariuttaPasi KuusiniemiH. KankaanpääR. JulinPanu RahkilaS. JuutinenM. MuikkuPaul GreenleesJuha UusitaloPeter M. Jones

subject

PhysicsNuclear and High Energy PhysicsIsotope010308 nuclear & particles physicsHadronNuclear structurechemistry.chemical_element01 natural sciencesIntruder stateNuclear physicschemistryExcited state0103 physical sciencesAlpha decayAtomic physics010306 general physicsAstatineGround state

description

The low-energy nuclear structure and decay properties of the neutron-deficient isotopes 195At and 191Bi have been studied. 195At was produced in the reaction 142Nd(56Fe,p2n)195At and 191Bi as the daughter activity of 195At. The activities were implanted in a position-sensitive silicon detector after being separated from the primary beam by a gas-filled recoil separator. The 1/2+ intruder state was determined to be the ground state in 195At with an alpha-decay energy of E α = 6953(3) keV and a half-life T 1/2 = 328(20) ms. Another state with an alpha-decay energy E α = 7075(4) keV and a half-life T 1/2 = 147(5) ms was found to decay to a 148.7(5) keV excited state in 191Bi for which a spin and parity of 7/2- were deduced. Consequently, the same 7/2- character was assigned to the initial state at 32(7) keV in 195At on the basis of unhindered alpha-decay. The 9/2- state, being the ground state in heavier odd-mass astatine isotopes, was not observed.

yearjournalcountryeditionlanguage
2003-04-01The European Physical Journal A
https://doi.org/10.1140/epja/i2002-10130-9