6533b839fe1ef96bd12a64ac

RESEARCH PRODUCT

Simultaneous Measurement ofβ−Decay to Bound and Continuum Electron States

Bernhard FranczakO. KlepperM. HausmannE. KazaYu. N. NovikovF. NoldenP. KienleB. FranzkeHans-jürgen KlugeMargareta HellströmM. MatosP. BellerYu. A. LitvinovM. SteckF. AttallahC. KozhuharovHelmut WeickK. SümmererT. RadonMauricio PortilloT. FaestermannTakayuki YamaguchiG. MünzenbergD. BoutinTakashi OhtsuboHans GeisselF. BoschJ. StadlmannM. WinklerThomas StöhlkerC. ScheidenbergerK. TakahashiK. BeckertL. Maier

subject

PhysicsCrystallographyBound stateGeneral Physics and AstronomyContinuum (set theory)ElectronAtomic physicsLambdaBeta decayEnergy (signal processing)Spectral lineIon

description

We report the first measurement of a ratio {lambda}{sub {beta}{sub b}}/{lambda}{sub {beta}{sub c}} of bound-state ({lambda}{sub {beta}{sub b}}) and continuum-state ({lambda}{sub {beta}{sub c}}) {beta}{sup -}-decay rates for the case of bare {sup 207}Tl{sup 81+} ions. These ions were produced at the GSI fragment separator FRS by projectile fragmentation of a {sup 208}Pb beam. After in-flight separation with the B{rho}-{delta}E-B{rho} method, they were injected into the experimental storage-ring ESR at an energy of 400.5A MeV, stored, and electron cooled. The number of both the {sup 207}Tl{sup 81+} ions and their bound-state {beta}{sup -}-decay daughters, hydrogenlike {sup 207}Pb{sup 81+} ions, were measured as a function of storage time by recording their Schottky-noise intensities. The experimental result, {lambda}{sub {beta}{sub b}}/{lambda}{sub {beta}{sub c}}=0.188(18), is in very good agreement with the value of 0.171(1) obtained from theory employing spectra of allowed transitions.

yearjournalcountryeditionlanguage
2005-07-25Physical Review Letters
https://doi.org/10.1103/physrevlett.95.052501