Optical synthesis aperture interference image technology

WANG Hai-tao; ZHOU Bi-fang

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Optical synthesis aperture interference image technology

更新时间：2020-08-12

- Optical synthesis aperture interference image technology
- Optics and Precision Engineering Vol. 10, Issue 5, Pages: 434-442(2002)
- 作者机构：
  
  国家天文台, 南京天文光学技术研究所,江苏南京,210042
- 作者简介：
- 基金信息：
- DOI：
  CLC： O436.1
- Received：17 February 2002，
  
  Revised：26 September 2002，
  
  Published Online：15 October 2002，
  
  Published：15 October 2002
- 稿件说明：
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王海涛, 周必方. 光学综合孔径干涉成像技术[J]. 光学精密工程, 2002,(5): 434-442

WANG Hai-tao, ZHOU Bi-fang. Optical synthesis aperture interference image technology[J]. Editorial Office of Optics and Precision Engineering, 2002,(5): 434-442
王海涛, 周必方. 光学综合孔径干涉成像技术[J]. 光学精密工程, 2002,(5): 434-442 DOI：

WANG Hai-tao, ZHOU Bi-fang. Optical synthesis aperture interference image technology[J]. Editorial Office of Optics and Precision Engineering, 2002,(5): 434-442 DOI：

摘要

闭合相位技术、U-V覆盖技术和像重构技术是光学综合孔径干涉成像的三个关键技术.文中详细介绍了闭合相位技术的原理、U-V覆盖技术(包括即时覆盖和通过孔径旋转的非即时覆盖两种方法)和用于图像重构的常用方法以及用于光学综合孔径像重构的混合迭代方法

最后讨论了光学综合孔径干涉成像技术的应用.

Abstract

Closure phase technology

U-V coverage technology and image reconstruction technology are three key technologies for optical synthesis aperture image. This paper details the closure phase theory

U-V coverage technology (which contains real time cover and non real time cover through aperture rotation) and the common method for image reconstruction

as well as the hybrid method for optical synthesis aperture image. The applications of optical synthesis aperture interference image technology are discussed in the end.

关键词

Keywords

references

李继陶.统计光学基础[M] .四川:四川大学出版社,1998.

Pierre Cruzalebes. Optical Simulation of a 5 Apertures Spectro-interferometer for IMAOINO[A] . Proc. ESO/NOAO[C] , 1988,757-767.

Mozurkewich D. Array layout and Beam Combination Considerations Necessary For Imaging with a Long Baseline Optical Interferometer[A] . Proc. ESO/NOAO[C] 1988,801-804.

Jennison R C. A phase Sensitive interferometer technique for the measurement of the fourier transforms of spatial brightness distributions of small angular extent[J] . MNRAS, 1958, 118(3):276-284.

Rogstad D H. A Technique for Measuring Visibility Phase with an Optical Interferometer in the Presence of Atmospheric Seeing[J] . Appl Opt,1968,7(4):585-588.

Rhodes W T, Goodman J W. Interferometric technique for recording and restoring images degraded by unknown aberrations[J] . J. OPT. Soc. Am. A, 1973,63(6):647-657.

Baldwin J E, Haniff C A, Mackay C D. Close phase in high resolution optical imaging[J] . Nature,1986,320(17):595-597.

Baldwin J E, Beckett M G, Boysen R C, et al. The first images from an opticalaperture synthesis array: mapping of Capella with COAST at two epochs[J] .A and A,1996,306,13-16.

Monnier J D. An introduction to Closure phases[A] .Principle of Long Baseline Stellar Interferometry. NASA Report. 2000[C] . Edited by P.R. Lawson,2000,203-230.

Cornwell T J. A novel principle for optimization of the instantaneous Fourier plane coverage of correlation arrays[J] . IEEE transaction on antennas and propagation, 1988,36(8):1165-1167.

邱耀辉,刘忠,卢汝为,等.Clean算法在天文图像空域重建中的应用[J] .云南天文台台刊.2000,(2):1-9.

Monnier J D. Infrared interferomtry and spectroscpy of circumstellar envelope[D] , Ph.D thesis, University of California at Berkeley, 1999.

陶纯堪,陶纯匡.光子信息论[M] .北京:科学出版社,1999,187-208.

王海涛,周必方.光综合孔径望远镜阵的光束组合器[J] .光学学报,2002,9:1109-1115.

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