EPJ Web of Conferences (Jan 2017)

Isomer beam elastic scattering: 26mAl(p, p) for astrophysics

  • Kahl D.,
  • Shimizu H.,
  • Yamaguchi H.,
  • Abe K.,
  • Beliuskina O.,
  • Cha S. M.,
  • Chae K. Y.,
  • Chen A. A.,
  • Ge Z.,
  • Hayakawa S.,
  • Imai N.,
  • Iwasa N.,
  • Kim A.,
  • Kim D. H.,
  • Kim M. J.,
  • Kubono S.,
  • Kwag M. S.,
  • Liang J.,
  • Moon J. Y.,
  • Nishimura S.,
  • Oka S.,
  • Park S. Y.,
  • Psaltis A.,
  • Teranishi T.,
  • Ueno Y.,
  • Yang L.

DOI
https://doi.org/10.1051/epjconf/201716501030
Journal volume & issue
Vol. 165
p. 01030

Abstract

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The advent of radioactive ground-state beams some three decades ago ultimately sparked a revolution in our understanding of nuclear physics. However, studies with radioactive isomer beams are sparse and have often required sophisticated apparatuses coupled with the technologies of ground-state beams due to typical mass differences on the order of hundreds of keV and vastly different lifetimes for isomers. We present an application of a isomeric beam of 26mAl to one of the most famous observables in nuclear astrophysics: galactic 26Al. The characteristic decay of 26Al in the Galaxy was the first such specific radioactivity to be observed originating from outside the Earth some four decades ago. We present a newly-developed, novel technique to probe the structure of low-spin states in 27Si. Using the Center for Nuclear Study low-energy radioisotope beam separator (CRIB), we report on the measurement of 26mAl proton resonant elastic scattering conducted with a thick target in inverse kinematics. The preliminary results of this on-going study are presented.