Stray Light Analysis of Solar Photoelectric Detection System on Space Target

Ling Yin Li; Yi Fan Wang; Xiao Gang San

doi:10.4028/www.scientific.net/AMR.466-467.196

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 466-467Stray Light Analysis of Solar Photoelectric...

Stray Light Analysis of Solar Photoelectric Detection System on Space Target

Abstract:

Most conventional spacious solar photoelectric detection systems suffer from unexpected stray light. This paper demonstrates the effects on photoelectric detection system bring out by stray light. On this foundation, build up evaluation index of stray light system, to search the reasonable programme to eliminating stray light. A detailed telescope system geometry model was created, and scatter models were create for telescope and enclosure components. By the means of designing the structure of main baffle, baffle vane and the coating technology. In order to verify the prosperity of structure that designed, we utilizes software to analysis opto-mechanical model. we utilizes software to analysis opto-mechanical model. The simulations show that point source transmittance of the system is thus reduced by up to two orders of magnitude between 10-8 and 10-10. Meanwhile, the experiment obtains clean detection data which satisfies the system requirements. Stray light has been suppressed effectually, and so measurement precision was improved from detection graphics.

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Periodical:

Advanced Materials Research (Volumes 466-467)

Pages:

196-200

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.466-467.196

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Online since:

February 2012

Authors:

Ling Yin Li, Yi Fan Wang, Xiao Gang San

Keywords:

Baffle Vane, Main Baffle, Photoelectric-Detection, Stray Light

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References

[1] B.L. Du and L. Li and Y.F. Huang, Stray light analysis of an on-axis three-reflection space, Chin. Opt. Lett, vol. 8, 569-572, Auguest, (2010).

Google Scholar

[2] X.Q. Wei, J.Z. Li. and D.D. li. Effects of miscellaneous lights in space rendezvous and docking and the design of measures to suppress the interference of miscellaneous lights, Opto-Electronic Eng, vol. 33, 0021-0026, May, (2006).

Google Scholar

[3] X. Zhong, J.Q. J. Stray light removing design and simulation of spaceborne camera, Opt. Precision Eng. vol. 17, 0621-0625, March, (2009).

Google Scholar

[4] G.G. Shi, Methods preventing stray light emer-genced in cassegrain systems, Opt. Precision Eng, vol. 5, 10-25, May, (1997).

Google Scholar

[5] G.G. Shi, Methods preventing stray light emer-genced in cassegrain systems, Opt. Precision Eng, vol. 5, 10-25, May, (1997).

Google Scholar

[6] X. Zhong, Stray light removing of reflective optical system, Infrared and Laser Engineering, vol. 37, 316-318, Feburary, (2008).

Google Scholar

[7] F. Zhao, S.D. Wang and Chao, Stray light control lens for Xing Long 1-meter optical telescope, Opt. Precision Eng, vol. 18, 0513-00520, Auguest, (2010).

Google Scholar

[8] S.S. Du, Y.M. Wang and G.J. Du, Stray light analysis of Fabry-Perot interference image spectrometer, Journal of Applied Optics, vol. 30, 0246-0251, Febuary, (2009).

Google Scholar

[9] K.Y. Yang, F.Y. Wang and N. J, Analysis of interior stray light for Yang infrared thermal imager by OptisWorks, Infrared & Technology, vol. 32, 0443-0448, Auguest, (2010).

Google Scholar

[10] X.Y. Li,Y.K. Yuan and Y.T. Pei, Analyzing and suppressing visible stray light of scanning radiometer for FY-2 mete-orological satellite, Sci. Technol. and Eng, vol. 6, 1605-1608, Dec, (2006).

Google Scholar