| Literature DB >> 32905453 |
Kiranmayee Kilaru1, Brian D Ramsey2, Wayne H Baumgartner2, Stephen D Bongiorno2, David M Broadway2, Patrick R Champey2, Jacqueline M Davis2, Stephen L O'Dell2, Ronald F Elsner2, Jessica A Gaskin2, Samantha Johnson3, Jeffery K Kolodziejczak2, Oliver J Roberts1, Douglas A Swartz1, Martin C Weisskopf2.
Abstract
NASA's Marshall Space Flight Center (MSFC) maintains an active research program toward the development of high-resolution, lightweight, grazing-incidence x-ray optics to serve the needs of future x-ray astronomy missions such as Lynx. MSFC development efforts include both direct fabrication (diamond turning and deterministic computer-controlled polishing) of mirror shells and replication of mirror shells (from figured, polished mandrels). Both techniques produce full-circumference monolithic (primary + secondary) shells that share the advantages of inherent stability, ease of assembly, and low production cost. However, to achieve high-angular resolution, MSFC is exploring significant technology advances needed to control sources of figure error including fabrication- and coating-induced stresses and mounting-induced distortions.Entities:
Keywords: direct-fabrication; full-shell replication; high-angular resolution x-ray mirrors; x-ray mirror fabrication; x-ray optics; x-ray telescopes
Year: 2019 PMID: 32905453 PMCID: PMC7473390 DOI: 10.1117/1.jatis.5.2.021010
Source DB: PubMed Journal: J Astron Telesc Instrum Syst ISSN: 2329-4124 Impact factor: 1.436