Leo Cavazzini scite author profile

Leo Cavazzini

3Publications

1Citation Statement Received

42Citation Statements Given

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University of Ferrara

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The X/Gamma-ray Imaging Spectrometer (XGIS) for THESEUS and other mission opportunities

Amati

Labanti²,

Mereghetti³

et al. 2022

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We describe the science case, design and expected performances of the X/Gamma-ray Imaging Spectrometer (XGIS), a GRB and transients monitor developed and studied for the THESEUS mission project, capable of covering an exceptionally wide energy band (2 keV -10 MeV), with imaging capabilities and location accuracy <15 arcmin up to 150 keV over a Field of View of 2sr, a few hundreds eV energy resolution in the X-ray band (<30 keV) and few micro seconds time resolution over the whole energy band. Thanks to a design based on a modular approach, the XGIS can be easily re-scaled and adapted for fitting the available resources and specific scientific objectives of future high-energy astrophysics missions, and especially those aimed at fully exploiting GRBs and high-energy transients for multimessenger astrophysics and fundamental physics.

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Imaging performance above 150 keV of the wide field monitor on board the ASTENA concept mission

Ferro

Cavazzini

Moita

et al. 2023

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A new detection system for X-/Gamma-ray broad energy passband detectors for astronomy has been developed. This system is based on Silicon Drift Detectors (SDDs) coupled with scintillator bars; the SDDs act as a direct detector of soft (<30 keV) X-ray photons, while hard X-/Gamma-rays are stopped by the scintillator bars and the scintillation light is collected by the SDDs. With this configuration, it is possible to build compact, position sensitive detectors with unprecedented energy passband (2 keV – 10/20 MeV). The X and Gamma-ray Imaging Spectrometer (XGIS) on board the THESEUS mission, selected for Phase 0 study for M7, exploits this innovative detection system. The Wide Field Monitor - Imager and Spectrometer (WFM-IS) of the ASTENA (Advanced Surveyor of Transient Events and Nuclear Astrophysics) mission concept consists of 12 independent detection units, also based on this new technology. For the WFM-IS, a coded mask provides imaging capabilities up to 150 keV, while above this limit the instrument will act as a full sky spectrometer. However, it is possible to extend imaging capabilities above this limit by alternatively exploiting the Compton kinematics reconstruction or by using the information from the relative fluxes measured by the different cameras. In this work, we present the instrument design and results from MEGAlib simulations aimed at evaluating the effective area and the imaging performances of the WFM-IS above 150 keV.

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ASTENA: an innovative mission concept for broadband high-energy astrophysics

Virgilli¹,

Frontera

Ferro³

et al. 2022

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Leo Cavazzini

The X/Gamma-ray Imaging Spectrometer (XGIS) for THESEUS and other mission opportunities

Imaging performance above 150 keV of the wide field monitor on board the ASTENA concept mission

ASTENA: an innovative mission concept for broadband high-energy astrophysics

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