A Telescope System for Charge and Position Measurement of High Energy Nuclei

Abstract

A high-granularity telescope system with a large sensitive area and low material budget has been developed for high-energy heavy ion beam tests. The telescope consists of nine layers of silicon microstrip detectors (SSDs), whose performance was validated through a heavy ion beam test at the CERN SPS. A hybrid machine learning algorithm is proposed to address the challenges of nuclear charge measurement with SSDs. The system achieves a spatial resolution of O(1) \, and a charge resolution better than 0.16 charge units for nuclei from Z = 1 to Z = 29, with a sensitive area of 8 × 8 \, cm2. To the best of our knowledge, this represents the most precise charge and spatial resolution simultaneously achieved by a silicon telescope to date.

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