R-process experiments with the Advanced Implantation Detector Array

ORAL

Abstract

Decay properties of neutron rich isotopes, such as half-lives and $\beta$-delayed neutron emission probabilities, are an important input for astrophysical models of the r-process. A new generation of fragmentation beam facilities has made it possible to access large regions of the nuclear chart that are close to the path of the r-process for some astrophysical models. The Advanced Implantation Detector Array (AIDA) is a segmented active-stopper detector designed for decay experiments with fast ion beams, which was recently commissioned at the Radioactive Ion Beam Factory in RIKEN, Japan. In this presentation we describe the main characteristics of AIDA, and present preliminary results of the first experiments in the region of neutron-rich selenium isotopes and along the N=82 shell closure.

Authors

  • Alfredo Estrade

    • Central Michigan University
    • Central Michigan University, JINA

  • Chris Griffin

    • University of Edinurgh

  • Tom Davinson

    • University of Edinurgh

  • Carlo Bruno

    • University of Edinurgh

  • Oscar Hall

    • University of Edinurgh

  • Zhong Liu

    • University of Edinurgh

  • Phil Woods

    • University of Edinurgh

  • Patrick Coleman-Smith

    • STFC Daresbury Lab

  • Marc Labiche

    • STFC Daresbury Lab

  • Ian Lazarus

    • STFC Daresbury Lab

  • Victor Pucknell

    • STFC Daresbury Lab

  • John Simpson

    • STFC Daresbury Lab

  • Laura Harkness-Brennan

    • University of Liverpool

  • Robert Page

    • University of Liverpool

  • Gabor Kiss

    • RIKEN Nishina Center

  • Jiajiang Liu

    • RIKEN Nishina Center

  • Keishi Matsui

    • RIKEN Nishina Center

  • Shunji Nishimura

    • RIKEN Nishina Center

  • Vi Phong

    • RIKEN Nishina Center

  • Giuseppe Lorusso

    • National Physical Laboratory

  • Fernando Montes

    • NSCL

  • Neerajan Nepal

    • Central Michigan University