Eurasian Journal of Physics and Functional Materials (Nov 2021)

High resolution γ-ray spectrometry using GALILEO array

  • D. .. Testov,
  • J. J. Valiente-Dobon,
  • D. .. Mengoni,
  • F. .. Recchia,
  • A. .. Goasduff,
  • A. .. Boso,
  • S. .. Lenzi,
  • G. .. De Angelis,
  • S. .. Bakes,
  • C. .. Boiano,
  • B. .. Cederwall,
  • G. .. Colucci,
  • M. .. Cicerchia,
  • P. .. Colovic,
  • F. .. Didierjean,
  • M. .. Doncel,
  • J. A. Duenas,
  • F. .. Galtarossa,
  • A. .. Gozzelino,
  • K. .. Hadynska-Klek,
  • R. .. Isocrate,
  • G. .. Jaworski,
  • P. R. John,
  • H. .. Liu,
  • S. .. Lunardi,
  • R. .. Menegazzo,
  • A. .. Mentana,
  • V. .. Modamio,
  • A. .. Nannini,
  • D. R. Napoli,
  • M. .. Palacz,
  • G. .. Pasqualato,
  • M. .. Rocchini,
  • S. .. Riccetto,
  • B. .. Saygi,
  • E. .. Sahin,
  • M. .. Siciliano,
  • Yu. .. Sobolev,
  • S. .. Szilner

DOI
https://doi.org/10.29317/ejpfm.2019030111
Journal volume & issue
Vol. 3, no. 1
pp. 84 – 90

Abstract

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The GALILEO γ -ray spectrometer has been constructed at the Legnaro National Laboratory of INFN (LNL-INFN). It can be coupled to advanced ancillary devices which allows nuclear structure studies employing the variety of in-beam γ -ray spectroscopy methods. Such studies benefit from reactions induced by the intense stable beams delivered by the Tandem-ALPI-PIAVE accelerator complex and by the radioactive beams which will be provided by the SPES facility. In this paper we outline two experiments performed within the experimental campaign at GALILEO coupled to the EUCLIDES Si-ball and the Neutron Wall array. The first one was aimed at spectroscopic studies in A=31 mirror nuclei and the second one at measurements of lifetimes of excited states in nuclei in the vicinity of 100 Sn.

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