\beta decay of ^{51,52}Ar

P.F. Mantica; Heather Crawford; J. Pereira; Jill Pinter; J.B. Stoker; R. Broda; B. Fornal; R.V.F. Janssens; X. Wang; S. Zhu; N. Hoteling; W.B. Walters; C.R. Hoffman; Samuel Tabor

$\beta$ decay of $^{51,52}$Ar

ORAL

Abstract

The neutron-rich $^{51,52}$Ar isotopes were produced by fragmentation of a $^{76}$Ge primary beam of energy 130 MeV/A at NSCL. The A1900 fragment separator, with a wedge degraded and plastic scintillator placed at its intermediate image, was used to select the Ar isotopes of interest from other reaction products. The full 5\% momentum acceptance of the A1900 was used, and other neutron-rich isotopes of K, Ca, Sc, and Ti were available for study as well. Seven implantations unambiguously identified as $^{52}$Ar based on energy loss, total energy, time-of-flight, and magnetic rigidity provided first evidence for the existence of this nuclide. We will report the $\beta$-decay half-lives of $^{51,52}$Ar deduced from event-by-event time correlations between implantations and subsequent $\beta$ decays measured with the NSCL Beta Counting System.

Oct. 24, 2008, 1:36 PM – Oct. 24, 2008, 1:48 PM

Authors

P.F. Mantica
- Michigan State University
Heather Crawford
- NSCL/MSU
- National Superconducting Cyclotron Laboratory
- NSCL
J. Pereira
- NSCL / MSU
- National Superconducting Cyclotron Laboratory
Jill Pinter
- NSCL/MSU
- National Superconducting Cyclotron Laboratory
- NSCL
J.B. Stoker
- NSCL/MSU
- National Superconducting Cyclotron Laboratory
R. Broda
- Institute of Nuclear Physics, Polish Academy of Sciences
B. Fornal
- Institute of Nuclear Physics, Poland
- Institute of Nuclear Physics, Polish Academy of Sciences
- IFJ PAN/Krakow
R.V.F. Janssens
X. Wang
S. Zhu
- ANL
N. Hoteling
- Argonne National Laboratory/U. of Maryland
W.B. Walters
- U. of Maryland
- Maryland
C.R. Hoffman
Samuel Tabor
- Florida State University
- FSU