Optical System Design of High-Precision Static Star Simulator

Xue Tao; Guo Yu Zhang; Qiong Wu; Ming Jiao Sun

doi:10.4028/www.scientific.net/KEM.552.3

Paper Titles

Preface, Committees, Organization and Sponsors

Optical System Design of High-Precision Static Star Simulator
p.3

Design of Athermalized Infrared Telephoto Lens
p.8

Wide-Angle Behaviors of Sub-Wavelength Metal Gratings as Polarizing Beam Splitters
p.14

Infrared Telephoto Design Used in Joint Transform Correlator
p.21

Design of Long-Wave Infrared Scan System with Rotating Dual-Wedge Prism
p.27

Design of a Refractive/Diffractive Hybrid Middle Infrared Continuous Zoom Optical System
p.33

Athermalization of Long Focal Length IR Optical Systems by Hydraulics
p.38

Target Optimization Design of Cam Curve in Zoom System
p.44

HomeKey Engineering MaterialsKey Engineering Materials Vol. 552Optical System Design of High-Precision Static...

Optical System Design of High-Precision Static Star Simulator

Abstract:

In order to satisfy the high－precision technical requirements of static star simulator, according to the optical design characteristics of traditional star simulator, the paper designed a collimating objective optical system with little distortion, flat field apochromatism, made the simulated star chart by parallel light exit, on the entrance of star sensor produced star chart, and realized the static star simulator could simulate star accuracy static star simulator. This system is designed by four lenses, effective aperture is 20mm, and focal distance is 190.84mm. By imaging quality analysis it shows that in the angular field of view 6°×6°, the relative distortion of collimating objective optical system is less than 0.01%, MTF at 40lp/mm reached 0.6, and has higher imaging quality. It proves that the optical system meet the design requirements.

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Key Engineering Materials (Volume 552)

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3-7

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https://doi.org/10.4028/www.scientific.net/KEM.552.3

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May 2013

Authors:

Xue Tao, Guo Yu Zhang, Qiong Wu, Ming Jiao Sun

Keywords:

Collimating Objective, Optical Design, Static Star Simulator

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