Study of the β-delayed neutron emissions of <sup>11</sup>Li using the DESCANT and GRIFFIN arrays at TRIUMF

Oral-In-person

Abstract

Systems that undergo 2-neutron (2n) emission can help probe n-n correlations. Typically, these studies involve unbound nuclei decaying immediately via 2n emission, but statistics is limited. Alternatively, 11Li a 2n halo nucleus with a large β-2n decay probability, may provide higher statistics to study 2n emissions, albeit with a complex mixture of sequential and simultaneous emission. At TRIUMF, we used the GRIFFIN γ-ray and DESCANT neutron detector arrays to study 1n and 2n emissions following the β-decay of 11Li. Our goal is to clarify discrepancies in β-1n spectrum measured in previous studies and to study possible 2n pathways. I will present the β-delayed 1n and 2n spectra using a simple cross-talk rejection model and demonstrate how β–γ–n coincidences can also be used to identify specific decay paths.

Presenters

  • Akanksha Singh

    • Colorado School of Mines

Authors

  • Akanksha Singh

    • Colorado School of Mines
  • Sonja Mayotte

    • Colorado School of Mines
  • Frederic Sarazin

    • Colorado School of Mines
  • Vinzenz Bildstein

    • University of Guelph
  • Adam Garnsworthy

    • TRIUMF
  • Paul Garrett

    • University of Guelph
  • Corina Andreoiu

    • Simon Fraser University
  • Abraham Avaa

    • TRIUMF
  • Gordon Ball

    • TRIUMF
  • Maeve Cockshutt

    • University of Victoria
  • Robin Coleman

    • University of Guelph
  • Iris Dillmann

    • TRIUMF
  • Sarah Dubé

    • TRIUMF
  • Fatima Garcia

    • Simon Fraser University
  • Christopher Griffin

    • TRIUMF
  • Madeleine Hanley

    • Colorado School of Mines
  • Desislava Kalaydjieva

    • University of Guelph
  • Jizhong Liu

    • TRIUMF
  • Ben Marlow

    • TRIUMF
  • Luke Mantle

    • TRIUMF
  • Konstantin Mashtakov

    • University of Guelph
  • Javier Murias

    • TRIUMF
  • Silvia Murillo

    • TRIUMF
  • Victoria Vedia

    • TRIUMF