1. Rad-hard properties of the optical glass adopted for the PLATO space telescope refractive components.
- Author
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Corso AJ, Tessarolo E, Baccaro S, Cemmi A, Di Sarcina I, Magrin D, Borsa F, Ragazzoni R, Viotto V, Novi A, Burresi M, Pellowski F, Salatti M, Pagano I, and Pelizzo MG
- Abstract
PLAnetary Transits and Oscillations of stars (PLATO) is a medium sized mission (M3) selected by the European Space Agency (ESA) for launch in 2026. The PLATO payload includes 26 telescopes all based on a six-element refractive optical scheme. Some components will be eventually manufactured by S-FPL51, N-KZFS11 and S-FTM16 glass whose radiation resistance is partially or totally unknown. The radiation-resistance properties of such materials have been investigated by using a
60 Co γ-rays source as probe. Each optical component has been characterized by a depth profile curve which describes the transmission loss as a function of the thickness in dependence of the impinging dose. A model to simulate the throughput of the whole instrument has been developed and used to verify the instrument performance considering different stellar spectra.- Published
- 2018
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