Particle identification using the Δe e technique and pulse shape discrimination with the silicon detectors of the FAZIA project

S. Carboni; S. Barlini; L. Bardelli; N. Le Neindre; M. Bini; B. Borderie; R. Bougault; G. Casini; P. Edelbruck; A. Olmi; G. Pasquali; G. Poggi; M. F. Rivet; A. A. Stefanini; G. Baiocco; R. Berjillos; E. Bonnet; M. Bruno; A. Chbihi; I. Cruceru; M. Degerlier; J. A. Dueñas; E. Galichet; F. Gramegna; A. Kordyasz; T. Kozik; V. L. Kravchuk; O. Lopez; T. Marchi; I. Martel; L. Morelli; M. Parlog; H. Petrascu; E. Rosato; V. Seredov; E. Vient; M. Vigilante; R. Alba; D. Santonocito; C. Maiolino

Journal Article

Particle identification using the Δe e technique and pulse shape discrimination with the silicon detectors of the FAZIA project

Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment (2012) 664(1) 251-263

DOI: 10.1016/j.nima.2011.10.061

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Abstract

The response of siliconsiliconCsI(Tl) and siliconCsI(Tl) telescopes to fragments produced in nuclear interactions has been studied. The telescopes were developed within the FAZIA collaboration. The capabilities of two methods are compared: (a) the standard ΔEE technique and (b) the digital Pulse Shape Analysis technique (for identification of nuclear fragments stopped in a single Si-layer). In a test setup, nuclear fragments covering a large range in nuclear charge, mass and energy were detected. They were produced in nuclear reactions induced by a 35A MeV beam of 129Xe impinging on various targets. It was found that the ΔEE correlations allow the identification of all isotopes up to Z∼25. With the digital Pulse Shape Analysis it is possible to fully distinguish the charge of stopped nuclei up to the maximum available Z (slightly over that of the beam, Z=54). © 2011 Elsevier B.V. All rights reserved.

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Carboni, S., Barlini, S., Bardelli, L., Le Neindre, N., Bini, M., Borderie, B., … Maiolino, C. (2012). Particle identification using the Δe e technique and pulse shape discrimination with the silicon detectors of the FAZIA project. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 664(1), 251–263. https://doi.org/10.1016/j.nima.2011.10.061

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Particle identification using the Δe e technique and pulse shape discrimination with the silicon detectors of the FAZIA project

Abstract

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