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Proceedings Paper

Design and performance analysis of multilayer nested grazing incidence optics
Author(s): Fuchang Zuo; Loulou Deng; Zhiwu Mei; Liansheng Li; Zhengxin Lv
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Paper Abstract

We have developed X-ray grazing incidence optics with a single mirror. Although t can be used to demonstrate and test on the ground to verify the feasibility of X-ray detection system, it is unable to meet the requirements of X-ray pulsar navigation due to small effective area and large mass. There is an urgent need to develop multilayer nested grazing incidence optics, which consists of multilayer mirrors to form a coaxial and confocal system to maximize the use of space and increase the effective area. In this paper, aiming at the future demand of X-ray pulsar navigation, optimization and analysis of nested X-ray grazing incidence optics was carried out, the recurrence relations between the layers of mirrors were derived, reasonable initial structural parameters and stray light reduction method was given, and theoretical effective collection area was calculated. The initial structure and stray light eliminating structure are designed. The optical-mechanical-thermal numerical model was established using optical analysis software and finite element software for stray light analysis, focusing performance analysis, tolerance analysis, and mechanical analysis, providing evidence and guidance for the processing and alignment of nested X-ray grazing incidence optics.

Paper Details

Date Published: 13 October 2014
PDF: 8 pages
Proc. SPIE 9250, Electro-Optical Remote Sensing, Photonic Technologies, and Applications VIII; and Military Applications in Hyperspectral Imaging and High Spatial Resolution Sensing II, 925004 (13 October 2014); doi: 10.1117/12.2067007
Show Author Affiliations
Fuchang Zuo, Beijing Institute of Control Engineering (China)
Loulou Deng, Beijing Institute of Control Engineering (China)
Zhiwu Mei, Beijing Institute of Control Engineering (China)
Liansheng Li, Beijing Institute of Control Engineering (China)
Zhengxin Lv, Beijing Institute of Control Engineering (China)


Published in SPIE Proceedings Vol. 9250:
Electro-Optical Remote Sensing, Photonic Technologies, and Applications VIII; and Military Applications in Hyperspectral Imaging and High Spatial Resolution Sensing II
Gary Kamerman; Gary J. Bishop; Ainsley Killey; Ove Steinvall; John D. Gonglewski, Editor(s)

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