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Autores principales: Monti-Guarnieri, Pietro, Paternò, Gianfranco, Sytov, Alexei, Cavazzuti, Elisabetta, Costamante, Luigi, Cutini, Sara, Duranti, Matteo, Fedeli, Pierluigi, Gaitskell, Richard J., Guidi, Vincenzo, Haurylavets, Viktar, Koushiappas, Savvas M., Longo, Francesco, Mangiacavalli, Sofia, Mazzolari, Andrea, Prest, Michela, Romagnoni, Marco, Selmi, Alessia, Soldani, Mattia, Tikhomirov, Victor, Vagelli, Valerio, Vallazza, Erik, Bandiera, Laura
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.04129
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author Monti-Guarnieri, Pietro
Paternò, Gianfranco
Sytov, Alexei
Cavazzuti, Elisabetta
Costamante, Luigi
Cutini, Sara
Duranti, Matteo
Fedeli, Pierluigi
Gaitskell, Richard J.
Guidi, Vincenzo
Haurylavets, Viktar
Koushiappas, Savvas M.
Longo, Francesco
Mangiacavalli, Sofia
Mazzolari, Andrea
Prest, Michela
Romagnoni, Marco
Selmi, Alessia
Soldani, Mattia
Tikhomirov, Victor
Vagelli, Valerio
Vallazza, Erik
Bandiera, Laura
author_facet Monti-Guarnieri, Pietro
Paternò, Gianfranco
Sytov, Alexei
Cavazzuti, Elisabetta
Costamante, Luigi
Cutini, Sara
Duranti, Matteo
Fedeli, Pierluigi
Gaitskell, Richard J.
Guidi, Vincenzo
Haurylavets, Viktar
Koushiappas, Savvas M.
Longo, Francesco
Mangiacavalli, Sofia
Mazzolari, Andrea
Prest, Michela
Romagnoni, Marco
Selmi, Alessia
Soldani, Mattia
Tikhomirov, Victor
Vagelli, Valerio
Vallazza, Erik
Bandiera, Laura
contents High-density and high-Z crystals are key elements of most space-borne $γ$-ray telescopes operating at gigaelectronvolt energies (such as Fermi-LAT). The lattice structure is usually neglected in the development of a crystalline detector, although its effects on the energy deposit development should be taken into account, since the interactions of a high-energy ($\sim$ 10~GeV) photon or e$^\pm$ impinging along the axis of an oriented crystal are different than those observed in a fully isotropic medium. Specifically, if the angle between a photon (e$^\pm$) trajectory, and the crystal axis is smaller than $\sim$ 0.1$^\circ$, a large enhancement of the pair production (bremsstrahlung) cross section is observed. Consequently, a photon-induced shower inside an oriented crystal develops within a much more compact region than in an amorphous medium. Moreover, for photon energies above a few gigaelectronvolt and incidence angles up to several degrees, the pair production cross section exhibits a pronounced dependence on the angle between the crystal axis and the photon polarization vector. In this work we show that these effects could be exploited to develop a novel class of light-weight pointing space-borne $γ$-ray telescopes, capable of achieving an improved sensitivity and resolution, thanks to a better shower containment in a smaller volume, with respect to non-oriented crystalline detectors. We also show that an oriented tracker-converter system could be used to measure the polarization of a $γ$-ray source above few gigaelectronvolts, in a regime that remains unexplorable through any other detection technique. This novel detector concept could open new pathways in the study of the physics of extreme astrophysical environments and potentially improve the detector sensitivity for indirect dark matter searches in space
format Preprint
id arxiv_https___arxiv_org_abs_2601_04129
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Satellite-borne $γ$-ray astrophysics from coherent interactions in oriented crystals
Monti-Guarnieri, Pietro
Paternò, Gianfranco
Sytov, Alexei
Cavazzuti, Elisabetta
Costamante, Luigi
Cutini, Sara
Duranti, Matteo
Fedeli, Pierluigi
Gaitskell, Richard J.
Guidi, Vincenzo
Haurylavets, Viktar
Koushiappas, Savvas M.
Longo, Francesco
Mangiacavalli, Sofia
Mazzolari, Andrea
Prest, Michela
Romagnoni, Marco
Selmi, Alessia
Soldani, Mattia
Tikhomirov, Victor
Vagelli, Valerio
Vallazza, Erik
Bandiera, Laura
High Energy Astrophysical Phenomena
High-density and high-Z crystals are key elements of most space-borne $γ$-ray telescopes operating at gigaelectronvolt energies (such as Fermi-LAT). The lattice structure is usually neglected in the development of a crystalline detector, although its effects on the energy deposit development should be taken into account, since the interactions of a high-energy ($\sim$ 10~GeV) photon or e$^\pm$ impinging along the axis of an oriented crystal are different than those observed in a fully isotropic medium. Specifically, if the angle between a photon (e$^\pm$) trajectory, and the crystal axis is smaller than $\sim$ 0.1$^\circ$, a large enhancement of the pair production (bremsstrahlung) cross section is observed. Consequently, a photon-induced shower inside an oriented crystal develops within a much more compact region than in an amorphous medium. Moreover, for photon energies above a few gigaelectronvolt and incidence angles up to several degrees, the pair production cross section exhibits a pronounced dependence on the angle between the crystal axis and the photon polarization vector. In this work we show that these effects could be exploited to develop a novel class of light-weight pointing space-borne $γ$-ray telescopes, capable of achieving an improved sensitivity and resolution, thanks to a better shower containment in a smaller volume, with respect to non-oriented crystalline detectors. We also show that an oriented tracker-converter system could be used to measure the polarization of a $γ$-ray source above few gigaelectronvolts, in a regime that remains unexplorable through any other detection technique. This novel detector concept could open new pathways in the study of the physics of extreme astrophysical environments and potentially improve the detector sensitivity for indirect dark matter searches in space
title Satellite-borne $γ$-ray astrophysics from coherent interactions in oriented crystals
topic High Energy Astrophysical Phenomena
url https://arxiv.org/abs/2601.04129