New detailed characterization of the residual luminescence emitted by the GAGG:Ce scintillator crystals for the HERMES Pathfinder mission

The HERMES (High Energy Rapid Modular Ensemble of Satellites) Pathfinder mission aims to develop a constellation of nanosatellites to study astronomical transient sources, such as gamma-ray bursts, in the X and soft gamma energy range, exploiting a novel inorganic scintillator. This study presents the results obtained describing, with an empirical model, the unusually intense and long-lasting residual emission of the GAGG:Ce scintillating crystal after irradiating it with high energy protons (70 MeV) and ultraviolet light (similar to 300 nm). From the model so derived, the consequences of this residual luminescence for the detector performance in operational conditions has been analysed. The suitability of this detector for the HERMES Pathfinder nanosatellites was demonstrated by the low contribution of the afterglow, 1-2 pA at peak, to the input current of the front-end electronics.

Automated summary

The HERMES Pathfinder mission aims to develop a constellation of nanosatellites for studying astronomical transient sources. This study presents the results of using a novel inorganic scintillator to describe the persistent luminescence of a scintillating crystal after irradiation with high energy protons and ultraviolet light. The study demonstrates the suitability of this scintillator for the HERMES Pathfinder nanosatellites based on its low contribution to the detector's input current.