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空间外差光谱仪系统设计 被引量:41

System design of spatial heterodyne spectrometer
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摘要 围绕空间外差光谱仪系统参数设计进行了理论分析和实验研究。介绍了空间外差光谱仪系统的基本结构和原理,并针对其光学系统设计,详述了系统的主要指标:光谱分辨率极限、分辨能力、光谱范围与关键光学器件:光栅、探测器、成像系统等参数的匹配关系。给出了一个完整的系统参数设计实例,并根据光学系统参数对干涉图进行了理论仿真。以搭台的方式建立空间外差光谱仪原理试验装置,并进行了典型光谱实验验证,系统检测结果表明光谱分辨能力在591nm达到了17700,光谱范围为574-59lnm。实验结果与仿真结果比较还表明,系统的光谱范围、光谱分辨率等指标达到了设计要求,验证了设计方法的可行性。 This paper analyses and studies the parameter design of a Spatial Heterodyne Spectrometer (SHS). The basic concept and structure of SHS is described and the dependence of resolution limit, power of resolution and spectral range on some critical parameters of optical components including grating parameters, pixels of detector, image lens and so on is introduced. By taking an integrated system design for example, the simulated result is presented. SHS system built and tested in the laboratory,the basic concepts and performance characteristics of the technique have been verified. Experimental results show that the achieved resolving power of the SHS system is 17 700 at 591 nm, and the spectral range is 574-591 nm. These results are coincident with the theoretical results well.
作者 叶松 方勇华 洪津 杨伟锋 乔延利
机构地区 中国科学院安徽光学精密机械研究所
出处 《光学精密工程》 EI CAS CSCD 北大核心 2006年第6期959-964,共6页 Optics and Precision Engineering
关键词 空间外差光谱仪 系统设计 参数设计 傅里叶变换光谱 Spatial Heterodyne Spectrometer(SHS) system design parameter design Fourier-transform spectroscopy
分类号 TP752 [自动化与计算机技术—检测技术与自动化装置] TH744.1 [机械工程—光学工程]
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参考文献12

  • 1SUZUKI D.Attainment of high resolution holographic Fourier transform spectroscopy[J].Appl.Opt.,1971,10:1137-1140.
  • 2ROESLER F L,HARLANDER J.Spatial heterodyne spectroscopy:interferometric performance at any wavelength without scanning[J].SPIE,1990,1318:234-243.
  • 3HARLANDER J.Spatial heterodyne spectroscopy:interferometric performance at any wavelength without scaning[D].USA:University of Wisconsin-Madison,1991.
  • 4HARLANDER J,ROESLER F.Spatial heterodyne spectroscopy:a novel interferometric technique for ground-based and space astronomy[J].SPIE,1990,1235:622-633.
  • 5WATCHORN S,ROESLE F L,HARLANDER J,et al.Development of the spatial heterodyne spectrometer for VUV remote sensing of the interstellar medium[J].SPIE,2001,4498:284-295.
  • 6MIERKIEWICZ E J,ROESLER F L,HARLANDER J,et al.First light performance of a near-UV spatial heterodyne spectrometer for interstellar emission line studies[J].SPIE,2004,5492:751-766.
  • 7ROESLER F L,HARLANDER J.Spatial heterodyne spectroscopy for atmospheric remote sensing[J].SPIE,1999,3756:337-345.
  • 8HARLANDER J,ROESLER F L,CARDON J G,et al.SHIMMER:a spatial heterodyne spectrometer for remote sensing of Earth's middle atmosphere[J].Appl.Opt.,2002,41(7):1343-1352.
  • 9HARLANDER J,ROESLER F L,ENGLERT C R,et al.Robust monolithic ultraviolet interferometer for the SHIMMER instrument on STPSat-1[J].Appl.Opt.,2003,42(15):2829-2834.
  • 10LIN Y L,SHEPHERD G,SOLHEIM B,et al.Introduction to spatial heterodyne observations of water (SHOW) project and its instrument development[C].ITSC-ⅩⅣ Proc.Beijing (Poster),China,2005.

二级参考文献29

  • 1SCHROCK E, MANOIR S, VELDMAN T, et al.Multicolor spectral karyotyping of human chromosomes[J].Science, 1996,273(26):494-497.
  • 2ROGER A S, THOMAS N, JEFF R Z, et al. Hyperspectral imaging: A novel approach for microscopic analysis[J]. Cytometry, 2001,43(4):239-247.
  • 3MICHAEL L H, ROGER A S, HAROLD R G. Characteristics and capabilities of the hyperspectral imaging microscope[J]. IEEE Engineering in Medicine and Biology, 2002,21(4):104-117.
  • 4ANTONIS P, DFSTATHIOS S, GEORGE D, et al. A Novel spectral microscope system: application in quantitative pathology[J]. IEEE Transactions on Biomedical Engineering, 2003, 50(2):207-217.
  • 5RICHARD M L, PAUL J C, NEAL R H. Spectral imaging and biomedicine: new devices, new approaches[C]. Proceedings of the 31st Applied Imagery Pattern Recognition Workshop (AIPR'02), 2002.
  • 6TOKUKO H, TAKESHI S, NORIYO H, et al. Spectral imaging fluorescence microscopy[J]. Genes to Cells, 2002, 7:881-887.
  • 7BARBER P R, VOJNOVIC B, ATKIN G, et al. Applications of cost-effective spectral imaging microscopy in cancer research[J]. J. Phys. D: Appl. Phys., 2003, 36:1729-1738.
  • 8RICHARD L O, MARK B W, DOROTHY A E. Analysis of stained objects in histological sections by spectral imaging and differential absorption[J]. The Journal of Histochemistry & Cytochemistry, 1999, 47(10):1307-1313.
  • 9AIKIO M. An optical component[P]. Finnish Patent No: 90289,1994.
  • 10朱华伟.[D].中国科学院上海技术物理研究所,2001.

共引文献36

同被引文献349

引证文献41

二级引证文献218

光学精密工程
2006年 第6期

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