Design and Testing of a new Tracking System for the Proton Charge Radius Measurement with the AMBER Experiment at CERN
M. Alexeev*, C. Alice, A. Amoroso, M. Bajzek, M. Chiosso, O. Denisov,
C. Dreisbach, K. Eichhorn, H. Fischer, J. Friedrich, C.G. Argos, D. Giordano, M. Hoffmann, A. Jedele, O. Kiselev, P. Klenze, I. Konorov, B. Löher, M.J. Losekamm, D. Panzieri, S. Paul, C. Pires, T. Pöschl, J.L. Rodríguez-Sánchez, L. Rose, C.J. Schmidt, B. Seitz, S. Sosio, F. Thomson, H. Tornqvist, B.M. Veit and R. Visinkaet al. (click to show)
Pre-published on:
April 08, 2024
Published on:
June 25, 2024
Abstract
The concept of the unified tracking station designed for the proton charge-radius measurement planned at the AMBER (NA66) fixed-target experiment at CERN is presented. Composed of scintillating-fiber hodoscope and silicon-pixel detectors, it aims to provide 30 μrad angular resolution for the measurement of muons at momenta of 100 GeV with a time resolution of 1 ns at a nominal beam rate of $2×10^6$ particles per second. Design choices and construction highlights, together with preliminary test results, are presented.
DOI: https://doi.org/10.22323/1.448.0049
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