1. Lynx optics based on full monolithic shells: design and development
- Author
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G. Vecchi, Marta Civitani, Mauro Ghigo, K. Kiranmayee, R. Elsner, Stefano Basso, J. Davis, J. Hołyszko, G. Pareschi, Giorgio Toso, Giancarlo Parodi, D. Swartz, ITA, and USA
- Subjects
Figuring ,Fabrication ,Materials science ,Antenna aperture ,Shell (structure) ,Mechanical engineering ,Polishing ,01 natural sciences ,law.invention ,Stiffening ,010309 optics ,Telescope ,law ,0103 physical sciences ,010303 astronomy & astrophysics ,Throughput (business) - Abstract
Lynx is an X-ray mission concept with superb imaging capabilities (< 1arcsec Half Energy Width, HEW) and large throughput (2 m2 effective area @1keV). Several approaches are being considered to meet the challenging technological task of the mirror fabrication. Thin and light substrates are necessary to meet mass constraints. Monolithic fused silica shells are a possible solution if their thickness can be maintained to below 4 mm for mirror shells up to 3 m diameter. In this paper we present the opto-mechanical design of the mirror assembly, the technological processes, and the results achieved so far on a prototypal shells under development. In particular, emphasis is placed on the figuring process that is based on direct polishing and on ion beam figuring and on a temporary stiffening structure designed to support the shell during the figuring and polishing operations and to manage the handling of the shell through all phases up to integration into the telescope supporting structure.
- Published
- 2018