平面光栅双单色仪的光学系统设计

doi:10.3964/j.issn.1000-0593(2012)03-0830-04

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摘要：平面光栅双单色仪是构成光栅衍射效率测试仪的重要组成部分，为了完成光栅衍射效率测试仪的研制，需要对平面光栅双单色仪的光学系统进行设计和模拟。仪器主要由光源、前置单色仪、测量单色仪和探测器组成;结合仪器的实际使用需要，确定了光源、探测器和光路结构，根据仪器的设计要求，分别对前置单色仪和测量单色仪的光学系统进行设计和模拟，给出了各自光学系统的像面点列图和实际光线追迹数据。设计结果保证了仪器光学系统的测量准确性。

关键词：平面光栅;双单色仪;光学设计;结果分析

Abstract：The plane grating double monochromator is the important part of the instrument for testing diffraction efficiency of plane grating, and in order to accomplish the research of the instrument, the optical system design and simulation of the plane grating double monochromator was investigated. The instrument mainly consists of light source, front monochromator, testing monochromator and detector, and combined with the practical requirement, the corresponding light source, detector and the structure of the optical path were selected. According to the design requirement, the design and simulation of the optical system of the front monochromator and testing monochromator were done respectively, and the spot diagram of the image surface and the results of real ray trace were given. The analysis showed that in the front monochromator the maximum width of the exit spot and the maximum height of the exit spot were 0.33 and 1.83 mm respectively. On the other hand, in the testing monochromator, the maximum width of the exit spot and the maximum height of the exit spot were 0.66 and 7.27 mm, respectively. Through selecting the size of the exit slit properly, the system can work without luminous flux lost, which guarantees the testing precision of the optical system of the instrument.

Key words：Plane grating;Double monochromator;Optical design;Results analysis

收稿日期: 2011-07-27 修订日期: 2011-11-10

中图分类号:

TH741.4

通讯作者: 巴音贺希格 E-mail: bayin888@sina.com

引用本文:

寇婕婷^{1, 2}，巴音贺希格^1*，唐玉国¹，齐向东¹，于宏柱¹ . 平面光栅双单色仪的光学系统设计[J]. 光谱学与光谱分析, 2012, 32(03): 830-833.
KOU Jie-ting^{1, 2}, Bayanheshig^1*, TANG Yu-guo¹, QI Xiang-dong¹, YU Hong-zhu¹ . Optical System Design of Plane Grating Double Monochromator . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2012, 32(03): 830-833.

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[1] LI Quan-chen, JIANG Yue-juan(李全臣，蒋月娟). The Theory of Spectrometer(光谱仪器原理). Beijing: Beijing Institute of Technology Press(北京：北京理工大学出版社)，1999. 190.
[2] WU Guo-an(吴国安). Design of Optical Spectrometer(光谱仪器设计). Beijing: Science Press(北京：科学出版社)，1978. 400.
[3] Zimmer F, Heberer A, Sandner Th., et al. SPIE, 2007, 6466: 646605.
[4] MA Ren-hong, LI Jing-qiu(马仁宏，李静秋). Optics and Precision Engineering(光学精密工程)，1998，6(2): 83.
[5] XUE Qing-sheng, WANG Shu-rong, LI Fu-tian(薛庆生，王淑荣，李福田). Opto-Electronic Engineering(光电工程)，2008, 35(7): 116.
[6] Lu Fachun, Jarken Esimbek, Zhou Jianjun, et al. Chinese Journal of Astronomy and Astrophysics, 2007, 7(2): 297.
[7] KOU Jie-ting, Bayanheshig, TANG Yu-guo, et al(寇婕婷，巴音贺希格，唐玉国，等). Acta Optica Sinica(光学学报)，2011, 31(7): 0705002.
[8] Bayanheshig, SHAO Xian-xiu, CUI Ji-cheng, et al(巴音贺希格，绍先秀，崔继承，等). Optics and Precision Engineering(光学精密工程), 2011, 19(1): 56.
[9] TANG Yu-guo, SONG Nan, Bayanheshig, et al(唐玉国，宋楠，巴音贺希格，等). Optics and Precision Engineering(光学精密工程), 2010, 18(9): 1989.
[10] PI Dao-rui, HUANG Yuan-shen, ZHANG Da-wei, et al(皮道锐，黄元申，张大伟, 等). Acta Physica Sinica(物理学报), 2010, 59(2): 1009.
[11] SUN Qiang, LU Zhen-wu, WANG Zhao-qi(孙强，卢振武，王肇圻). Acta Optica Sinica(光学学报)，2004, 24(6): 830.
[12] CHEN Tan-xuan, YANG Huai-dong, CHEN Ke-xin, et al(陈谭轩，杨怀栋，陈科新，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2010, 30(6): 1692.
[13] WANG Shu-xin, LI Jing-lin, LIU Lei, et al(王书新，李景林，刘磊，等). Optics and Precision Engineering(光学精密工程)，2010, 18(10): 2239.
[14] CHEN Shao-jie, TANG Yu-guo, Bayanheshig, et al(陈少杰，唐玉国，巴音贺希格，等). Chinese Journal of Optics and Applied Optics(中国光学与应用光学), 2009, 2(4): 322.
[15] LIU Ying, WANG Xue-jin, PAN Yu-long, et al(刘英，王学进，潘玉龙，等). Optics and Precision Engineering(光学精密工程), 2010, 18(3): 579.