First Test of Energy Response of the Micro-Vertex Detection System for the WASA-FRS Experiments

S. Escrig,C. Rappold, J. Bernabeu, J. Herranz, C. Lacasta Llacer, A. Navarrete,C. Solaz Contell, V. Drodz,H. Ekawa, D. Fernandez Ruiz, Y. Gao, M. J. Garcia Borge, V. Garcia Tavora, Y. He,S. Horta Munoz,A. Kasagi, E. Liu, N. Maldonado Gavilan,S. Minami, M. Nakagawa, A. Nerio Aguirre, A. Perea Martinez, T. R. Saito, J. Sanchez-Prieto, R. Sekiya, M. C. Serna Moreno, Y. K. Tanaka, O. Tengblad, S. Vinals Onses, H. Wang, A. Yanai

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT（2024）

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Abstract

The hypernuclei, which are nuclei that contain the quark s, have been studied for more than 50 years. Notwithstanding, the recent experiments using high-energy heavy-ion induced reactions have challenged their current understanding. The high multiplicity of particles generated in the reaction allows for the measurement of the interaction point of the primary beam with the target. Then, a micro-vertex detection system for the WASA-FRS Experiments has been developed. Several experimental tests have been performed with Sr-90 and Bi-207 beta sources and a 10-MeV proton beam at the CMAM tandem accelerator, and their results are reported.

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Key words

Micro-strip silicon sensor,Tracking detector,Micro-vertex detector

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