EPJ Web of Conferences (Jan 2018)

Trojan Horse Method experiments with radioactive ion beams

  • Gulino Marisa,
  • Cherubini Silvio,
  • Gabriele Rapisarda Giuseppe,
  • Kubono Shigeru,
  • Lamia Livio,
  • La Cognata Marco,
  • Gianluca Pizzone Rosario,
  • Yamaguchi Hidetoshi,
  • Hayakawa Seya,
  • Wakabayashi Yasuo,
  • Iwasa Naohito,
  • Kato Seigo,
  • Komatsubara Tetsuro,
  • Teranishi Takashi,
  • Coc Alain,
  • de Séréville Nicolas,
  • Hammache Fairouz,
  • Kiss Gabor,
  • Bishop Shawn,
  • Nguyen Binh Dam,
  • Roeder Brian,
  • Trache Livius,
  • Tribble Robert,
  • Spartà Roberta,
  • Indelicato Iolanda,
  • Spitaleri Claudio

DOI
https://doi.org/10.1051/epjconf/201818401008
Journal volume & issue
Vol. 184
p. 01008

Abstract

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The Trojan Horse Method (THM) is an indirect method that allows to get information about a two body reaction cross-section even at very low energy, avoiding the suppression effects due to the presence of the Coulomb barrier. The method requires a very accurate measurement of a three body reaction in order to reconstruct the whole kinematics and discriminate among different reaction mechanisms that can populate the same final state. These requirements hardly match with the typical low intensity and large divergence of radioactive ion beams (RIBs), and experimental improvements are mandatory for the applicability of the method. The first reaction induced by a radio activeion beam studied by applying the THM was the 18F(p,α)15O. Two experiments were performed in two different laboratories and using different experimental set-ups. The two experiments will be discussed and some results will be presented.