基于数字微镜器件的中阶梯光栅光谱仪的光学系统设计

研究了一种基于数字微镜器件（DMD）具有新型光路结构的中阶梯光栅光谱仪，并采用新的谱图信息接收方式来降低其使用成本和数据处理过程的复杂程度。将具有单波长选通功能的DMD与一维探测器光电倍增管（PMT）相结合接收中阶梯光栅光谱仪的光谱信息，在降低仪器成本的同时将中阶梯光栅光谱仪谱图还原算法与DMD扫描驱动算法相整合，提高了算法效率。由于DMD的填充因子比CCD稍低，该类光谱仪对成像质量和能量集中度提出了更高的要求。本文根据DMD型中阶梯光栅光谱仪特点，在有限的可挑选的光学材料下，采用多重优化的方式合理设计了中阶梯光栅光谱仪准直镜、中阶梯光栅、棱镜、聚焦镜等各个光学元件的光路结构参数, 并且在Czerny-Turner结构中加入校正透镜和场镜，校正了系统所有像差，提高了整个光学系统的成像质量和光谱分辨率。最终设计的光谱仪系统分辨率达0.01 nm，单个微反射镜内的光斑能量聚集度达到70%。

Abstract

An echelle spectrometer with a new optical path based on a Digital Micro Device (DMD)was proposed and a new spectrum receiving method was used to reduce the cost of the grating spectrograph and the complexity of data processing. The DMD with single wavelength getting function and an one-dimensional photomultiplier (PMT) were combined to receive spectral information of the echelle spectrometer. By which, the cost of the instrument was reduced and the spectral restore algorithm for the echelle spectrometer and the scan driving algorithm for the DMD were integrated to improve algorithm efficiency. Because the fill factor of CCD is lower than that of DMD, this kind of echelle spectrometer should be giving a higher imaging quality and higher imaging energy. According to the characteristics of the echelle spectrometer and the limited range of selected optical materials, the multi-optimization method was employed to design the optical path structure parameters of the echelle spectrometers such as quasi-direct mirror, echelle grating, prism and focusing mirror. Moreover, the Czerny-TurnerC-T structure was added into the system to correct the asymmetric aberration and three correction lenses was used to correct the spherical aberration astigmatism. Finally, the resolution of the designed spectrometer system has reached 0.01 nm and the system imaging energy in one pixel can be 70%.

参考文献

[1] 冯帆, 段发阶, 伯恩, 等. 一种小型中阶梯光栅光谱仪的光学设计［J］. 光电工程, 2014, 41(7): 20-25.

FENG F, DUAN F J, BO E, et al.. An optical design of small-size echelle spectrograph［J］. Opto-Electronic Engineering, 2014, 41(7): 20-25. (in Chinese)

[2] FURXHI O, MARKS D L, BRADY D J. Echelle crossed grating millimeter wave beam scanner［J］. Optics Express, 2014, 22(13): 16393-16407.

[3] RICHTER M J, ENNICO K A, MCKELVEY M E, et al.. Status of the echelon-cross-echelle spectrograph for SOFIA［J］. SPIE, 2010, 7735: 77356Q.

[4] 孙梦至, 高劲松, 李资政, 等. 基底温度对中阶梯光栅厚铝膜质量的影响［J］. 中国光学, 2016, 9(6): 656-662.

SUN M ZH, GAO J S, LI Z ZH, et al.. Influence of substrate temperature on the quality of thick Al films of echelle grating［J］. Chinese Optics, 2016, 9(6): 656-662. (in Chinese)

[5] 毛靖华, 王咏梅, 石恩涛, 等. 基于中阶梯光栅的波长定标方法研究［J］. 中国光学, 2017, 10(3): 376-382.

MAO J H, WANG Y M, SHI E T, et al.. Spectral calibration based on echelle［J］. Chinese Optics, 2017, 10(3): 376-382. (in Chinese)

[6] 谢品, 倪争技, 黄元申, 等. 中阶梯光栅的应用研究进展［J］. 激光杂志, 2009, 30(2): 4-6.

XIE P, NI ZH J, HUANG Y SH, et al.. Application research progress in the echelle grating［J］. Laser Journal, 2009, 30(2): 4-6. (in Chinese)

[7] 张瑜峰, 武建芬, 朱青松, 等. 二维全谱高分辨中阶梯光谱仪光学系统设计［J］. 光学学报, 2015, 35(4): 0422005.

ZHANG Y F, WU J F, ZHU Q S, et al.. Optical design of high resolution two dimension echelle spectrometer［J］. Acta Optica Sinica, 2015, 35(4): 0422005. (in Chinese)

[8] 张尹馨, 杨怀栋, 邓超, 等. 高分辨率中阶梯光栅－棱镜交叉色散光路设计［J］. 光谱学与光谱分析, 2013, 33(6): 1706-1710.

ZHANG Y X, YANG H D, DENG CH, et al.. Optical design of high-resolution echelle-prism cross-dispersion［J］. Spectroscopy and Spectral Analysis, 2013, 33(6): 1706-1710. (in Chinese)

[9] 唐玉国, 宋楠, 巴音贺希格, 等. 中阶梯光栅光谱仪的光学设计［J］. 光学精密工程, 2010, 18(9): 1989-1995.

TANG Y G, SONG N, BAYANHESHIG, et al.. Optical design of cross-dispersed echelle spectrograph［J］. Opt. Precision Eng., 2010, 18(9): 1989-1995. (in Chinese)

[10] 陈少杰, 巴音贺希格, 潘明忠, 等. 中阶梯光栅光谱仪快速设计与谱图分析的数学模型［J］. 光学学报, 2013, 33(10): 1030001.

CHEN SH J, BAYANHESHIG, PAN M ZH, et al.. Efficient algorithms for echelle spectrograph design and cross-dispersed spectra analysis［J］. Acta Optica Sinica, 2013, 33(10): 1030001. (in Chinese)

[11] 杨晋, 尹禄, 姚雪峰, 等. 新型便携式中阶梯光栅光谱仪光学设计与消杂散光研究［J］. 光学学报, 2015, 38(8): 0812001.

YANG J, YIN L, YAO X F, et al.. Optical design and stray light suppression of a new portable echelle spectrometer［J］. Acta Optica Sinica, 2015, 35(8): 0812001. (in Chinese)

[12] 唐玉国, 陈少杰, 巴音贺希格, 等. 中阶梯光栅光谱仪的谱图还原与波长标定［J］. 光学精密工程, 2010, 18(10): 2130-2136.

TANG Y G, CHEN SH J, BAYANHESHIG, et al.. Spectral reducing of cross-dispersed echelle spectrograph and its wavelength calibration［J］. Opt. Precision Eng., 2010, 18(10): 2130-2136. (in Chinese)

[13] 张颖新, 王云萍, 侯军燕. 高帧频DMD红外景象仿真设备电路与光学系统设计［J］. 红外与激光工程, 2017, 46(4): 0404003.

ZHANG Y X, WANG Y P, HOU J Y. Circuit and optical system design for high frame rate DMD infrared scene simulation equipment［J］. Infrared and laser Engineering, 2017, 46(4): 0404003. (in Chinese)

[14] 吕伟振, 刘伟奇, 魏忠伦, 等. 基于DMD的高动态范围成像光学系统设计［J］. 红外与激光工程, 2014, 43(4): 1167-1171.

L W ZH, LIU W Q, WEI ZH L, et al.. Design of high dynamic range imaging optical system based on DMD［J］. Infrared and Laser Engineering, 2014, 43(4): 1167-1171. (in Chinese)

[15] 陈笑, 颜玢玢, 宋菲君, 等. DMD光栅的衍射特性及其在可调谐激光中的应用［J］. 光学学报, 2012, 32(7): 0705003.

CHEN X, YAN B B, SONG F J, et al.. Diffractive properties of DMD gratings and its new application in tunable fiber lasers［J］. Acta Optica Sinica, 2012, 32(7): 0705003. (in Chinese)

[16] 莫祥霞. 基于DMD的微小型近红外光谱仪系统研究［D］. 重庆: 重庆大学, 2011.

MO X X. Research of NIR Miniature Spectrometer System Based on DMD［D］. Chongqing: Chongqing University, 2011. (in Chinese)

[17] 王延杰, 陈怀章, 刘艳滢, 等. 数字微镜器件在高动态辐射场景成像探测系统中的应用［J］. 光学精密工程, 2014, 22(9): 2508-2517.

WANG Y J, CHEN H ZH, LIU Y Y, et al.. Application of DMD to high dynamic scene image detection system［J］. Opt. Precision Eng., 2014, 22(9): 2508-2517. (in Chinese)

[18] ZHANG R, BAYANHESHIG, YIN L, et al.. Wavelength calibration model for prism-type echelle spectrometer by reversely solving prism’s refractive index in real time［J］. Applied Optics, 2016, 55(15): 4153-4158.

张锐, 潘明忠, 杨晋, 巴音贺希格, 崔继承. 基于数字微镜器件的中阶梯光栅光谱仪的光学系统设计[J]. 光学精密工程, 2017, 25(12): 2994. ZHANG Rui, PAN Ming-zhong, YANG Jin, BAYANHESHIG, CUI Ji-cheng. Optical system of echelle spectrometer based on DMD[J]. Optics and Precision Engineering, 2017, 25(12): 2994.

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