The GSO scintillator has a very excellent radiation resistance, fast decay time and large amounts of light yield. Because of these features,GSO will be used to upgrade the current LHCf detector. We examined the features of GSO by using heavy ion beam at Heavy Ion Medical Accelerator in Chib a (HIMAC) Japan. The linearity of PMT R7400 for the large light yield of GSO with a Xe-132 beam and the radiation hardness with a C-12 beam were measured. As a result, GSO scintillator showed a good linearity up to the signal corresponding to 6 TeV EM-shower maximum in the LHCf detector, and a good radiation hardness up to 7x10(5) Gy. For the LHCf Arm1 detector, small scaled GSO crystals (GSO bars), have been fabricated for the position determination detector. 5 GSO bars have been manufactured and its performance have been evaluated using C-12 beam. It slight yield and position dependency have been evaluated.

Study of GSO scintillator for the LHCf upgrade / K. Kawade;T. Suzuki;O. Adriani;L. Bonechi;M. Bongi;G. Castellini;R. D'Alessandro;K. Fukatsu;M. Haguenauer;Y. Itow;K. Kasahara;D. Macina;T. Mase;K. Masuda;Y. Matsubara;H. Menjo;G. Mitsuka;Y. Muraki;M. Nakai;K. Noda;P. Papini;A. L. Perrot;S. Ricciarini;T. Sako;Y. Shimizu;K. Suzuki;K. Taki;T. Tamura;S. Torii;A. Tricomi;W. C. Turner;K. Yoshida. - In: AIP CONFERENCE PROCEEDINGS. - ISSN 0094-243X. - STAMPA. - 1367:(2011), pp. 220-223. (Intervento presentato al convegno INTERNATIONAL SYMPOSIUM ON THE RECENT PROGRESS OF ULTRA‐HIGH ENERGY COSMIC RAY OBSERVATION) [10.1063/1.3628750].

Study of GSO scintillator for the LHCf upgrade

ADRIANI, OSCAR;BONECHI, LORENZO;BONGI, MASSIMO;D'ALESSANDRO, RAFFAELLO;
2011

Abstract

The GSO scintillator has a very excellent radiation resistance, fast decay time and large amounts of light yield. Because of these features,GSO will be used to upgrade the current LHCf detector. We examined the features of GSO by using heavy ion beam at Heavy Ion Medical Accelerator in Chib a (HIMAC) Japan. The linearity of PMT R7400 for the large light yield of GSO with a Xe-132 beam and the radiation hardness with a C-12 beam were measured. As a result, GSO scintillator showed a good linearity up to the signal corresponding to 6 TeV EM-shower maximum in the LHCf detector, and a good radiation hardness up to 7x10(5) Gy. For the LHCf Arm1 detector, small scaled GSO crystals (GSO bars), have been fabricated for the position determination detector. 5 GSO bars have been manufactured and its performance have been evaluated using C-12 beam. It slight yield and position dependency have been evaluated.
2011
Proceedings of INTERNATIONAL SYMPOSIUM ON THE RECENT PROGRESS OF ULTRA‐HIGH ENERGY COSMIC RAY OBSERVATION
INTERNATIONAL SYMPOSIUM ON THE RECENT PROGRESS OF ULTRA‐HIGH ENERGY COSMIC RAY OBSERVATION
K. Kawade;T. Suzuki;O. Adriani;L. Bonechi;M. Bongi;G. Castellini;R. D'Alessandro;K. Fukatsu;M. Haguenauer;Y. Itow;K. Kasahara;D. Macina;T. Mase;K. Masuda;Y. Matsubara;H. Menjo;G. Mitsuka;Y. Muraki;M. Nakai;K. Noda;P. Papini;A. L. Perrot;S. Ricciarini;T. Sako;Y. Shimizu;K. Suzuki;K. Taki;T. Tamura;S. Torii;A. Tricomi;W. C. Turner;K. Yoshida
4a - Articolo in atti di congresso
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/645216
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