The measurement of cosmic rays at energies exceeding 100 TeV per nucleon is crucial for enhancing the understanding of high-energy particle propagation and acceleration models in the Galaxy. HERD is a space-borne calorimetric experiment that aims to extend the current direct measurements of cosmic rays to unexplored energies, such as protons exceeding one PeV. The payload is scheduled to be installed on the Chinese Space Station in 2027. The primary peculiarity of the instrument is its capability to measure particles coming from all directions, with the main detector being a deep, homogeneous, 3D calorimeter. The active elements are read out using two independent systems: one based on wavelength shifter fibers coupled to CMOS cameras, and the other based on photo-diodes read-out with custom front-end electronics. A large calorimeter prototype was tested in 2023 during an extensive beam test campaign at CERN. In this paper, the performance of the calorimeter for high-energy electron beams, as obtained from the photo-diode system data, is presented. The prototype demonstrated excellent performance, e.g., an energy resolution better than 1% for electrons at 250 GeV. A comparison between beam test data and Monte Carlo simulation data is also presented.
Performance assessment of the HERD calorimeter with a photo-diode read-out system for high-energy electron beams / Adriani, O.; Ambrosi, G.; Antonelli, M.; Bai, Y.; Bai, X.; Bao, T.; Barbanera, M.; Berti, E.; Betti, P.; Bigongiari, G.; Bongi, M.; Bonvicini, V.; Bottai, S.; Cagnoli, I.; Cao, W.; Casaus, J.; Cerasole, D.; Chen, Z.; Cui, X.; D'Alessandro, R.; Di Venere, L.; Diaz, C.; Dong, Y.; Detti, S.; Duranti, M.; Gargano, F.; Gao, J.; Guo, S.; Giovacchini, F.; Finetti, N.; Formato, V.; Jiang, Y.; Liang, X.; Li, R.; Liao, C.; Liu, X.; Lyu, L.; Marin, J.; Martinez, G.; Mori, N.; Oliva, A.; Pacini, L.; Papini, P.; Pillera, R.; Pizzolotto, C.; Quan, Z.; Qin, J.J.; Scaringella, M.; Serini, D.; Shi, D.; Silveri, L.; Silvestre, G.; Starodubtsev, O.; Tang, X.; Tiberio, A.; Vannuccini, E.; Velasco, M.; Wang, B.; Wang, J.; Wang, R.; Wang, Z.; Xu, M.; Yang, X.; Zampa, G.; Zampa, N.; Zhang, S.; Zheng, J.. - In: JOURNAL OF INSTRUMENTATION. - ISSN 1748-0221. - ELETTRONICO. - 20:(2025), pp. P02015.0-P02015.0. [10.1088/1748-0221/20/02/p02015]
Performance assessment of the HERD calorimeter with a photo-diode read-out system for high-energy electron beams
Adriani, O.;Bongi, M.;D'Alessandro, R.;Tiberio, A.;
2025
Abstract
The measurement of cosmic rays at energies exceeding 100 TeV per nucleon is crucial for enhancing the understanding of high-energy particle propagation and acceleration models in the Galaxy. HERD is a space-borne calorimetric experiment that aims to extend the current direct measurements of cosmic rays to unexplored energies, such as protons exceeding one PeV. The payload is scheduled to be installed on the Chinese Space Station in 2027. The primary peculiarity of the instrument is its capability to measure particles coming from all directions, with the main detector being a deep, homogeneous, 3D calorimeter. The active elements are read out using two independent systems: one based on wavelength shifter fibers coupled to CMOS cameras, and the other based on photo-diodes read-out with custom front-end electronics. A large calorimeter prototype was tested in 2023 during an extensive beam test campaign at CERN. In this paper, the performance of the calorimeter for high-energy electron beams, as obtained from the photo-diode system data, is presented. The prototype demonstrated excellent performance, e.g., an energy resolution better than 1% for electrons at 250 GeV. A comparison between beam test data and Monte Carlo simulation data is also presented.
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