A particle traversing a crystal aligned with one of its crystallographic axes experiences a strong electromagnetic field that is constant along the direction of motion over macroscopic distances. For and γ-rays with energies above a few GeV, this field is amplified by the Lorentz boost, to the point of exceeding the Schwinger critical field E0∼1.32×1016V/cm. In this regime, nonlinear quantum-electrodynamical effects occur, such as the enhancement of intense electromagnetic radiation emission and pair production, so that the electromagnetic shower development is accelerated and the effective shower length is reduced compared to amorphous materials. We have investigated this phenomenon in lead tungstate (PbWO4), a high-Z scintillator widely used in particle detection. We have observed a substantial increase in scintillation light at small incidence angles with respect to the main lattice axes. Measurements with 120GeV electrons and γ-rays between 5 and 100GeV demonstrate up to a threefold increase in energy deposition in oriented samples. These findings challenge the current models of shower development in crystal scintillators and could guide the development of next-generation accelerator- and space-borne detectors.
Strong enhancement of electromagnetic shower development in oriented scintillating crystals and implications for particle detectors / Soldani, Mattia; Monti-Guarnieri, Pietro; Selmi, Alessia; Argiolas, Nicola; Bomben, Luca; Brizzolari, Claudia; Canale, Nicola; Carsi, Stefano; Charitonidis, Nikolaos; De Salvador, Davide; Guidi, Vincenzo; Haurylavets, Viktar; Korzhik, Mikhail; Lezzani, Giulia; Lobko, Alexander; Malagutti, Lorenzo; Mangiacavalli, Sofia; Mascagna, Valerio; Mazzolari, Andrea; Mechinsky, Vitaly; Moulson, Matthew; Negrello, Riccardo; Paternò, Gianfranco; Perna, Leonardo; Petroselli, Christian; Prest, Michela; Romagnoni, Marco; Ronchetti, Federico; Saibene, Giosué; Sgarbossa, Francesco; Sytov, Alexei; Tikhomirov, Viktor; Vallazza, Erik; Bandiera, Laura. - In: EUROPEAN PHYSICAL JOURNAL. C, PARTICLES AND FIELDS. - ISSN 1434-6052. - 85:11(2025), pp. 1239.1-1239.10. [10.1140/epjc/s10052-025-14967-4]
Strong enhancement of electromagnetic shower development in oriented scintillating crystals and implications for particle detectors
Pietro Monti-GuarnieriSecondo
;Erik VallazzaPenultimo
;
2025-01-01
Abstract
A particle traversing a crystal aligned with one of its crystallographic axes experiences a strong electromagnetic field that is constant along the direction of motion over macroscopic distances. For and γ-rays with energies above a few GeV, this field is amplified by the Lorentz boost, to the point of exceeding the Schwinger critical field E0∼1.32×1016V/cm. In this regime, nonlinear quantum-electrodynamical effects occur, such as the enhancement of intense electromagnetic radiation emission and pair production, so that the electromagnetic shower development is accelerated and the effective shower length is reduced compared to amorphous materials. We have investigated this phenomenon in lead tungstate (PbWO4), a high-Z scintillator widely used in particle detection. We have observed a substantial increase in scintillation light at small incidence angles with respect to the main lattice axes. Measurements with 120GeV electrons and γ-rays between 5 and 100GeV demonstrate up to a threefold increase in energy deposition in oriented samples. These findings challenge the current models of shower development in crystal scintillators and could guide the development of next-generation accelerator- and space-borne detectors.| File | Dimensione | Formato | |
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