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Proceedings Paper

Numerical simulation of the impact of subsonic hemispherical/cylindrical wake on adaptive optics
Author(s): Qi Guan; Wei Yan; Tai-jiao Du; Zhi-hua Chen; Guo-liang Peng
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Paper Abstract

The flow field around a hemispherical/cylindrical structure at Mach number of Ma=0.4 is calculated, and the distributions of temporal root mean square value of velocity and density in the wake are presented. Further more, the optical path difference and aero-optical phase are calculated according to density field, and then the impact of the wake on adaptive optics systems with a point source and a plane-wave source beacon is studied respectively. It is found that there are plentiful turbulent structures in the wake, and the maximum values of the temporal root mean square of density and velocity both decrease 84% when the distance from the calculated position to the center of the structure varies from 0.43 m to 1.5 m. The spatial root mean square of optical path difference varies dramatically over time, and its time average gain two times while the angle of projection varies from 120°to 148°. The hemispherical/cylindrical wake has little impact on the adaptive optics system when the beacon is point source. While the wake has great impact when the beacon is plane-wave source, and the impact gets worse when the angle of projection gets larger. The Strehl ratio of the main laser decreases from 0.72 to 0.33 when the angle of projection increases from 120°to 148°.

Paper Details

Date Published: 20 February 2018
PDF: 13 pages
Proc. SPIE 10697, Fourth Seminar on Novel Optoelectronic Detection Technology and Application, 106972Q (20 February 2018); doi: 10.1117/12.2306207
Show Author Affiliations
Qi Guan, Northwest Institute of Nuclear Technology (China)
Wei Yan, Northwest Institute of Nuclear Technology (China)
Tai-jiao Du, Northwest Institute of Nuclear Technology (China)
Zhi-hua Chen, Northwest Institute of Nuclear Technology (China)
Guo-liang Peng, Northwest Institute of Nuclear Technology (China)


Published in SPIE Proceedings Vol. 10697:
Fourth Seminar on Novel Optoelectronic Detection Technology and Application
Weiqi Jin; Ye Li, Editor(s)

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