| 光谱学与光谱分析 |
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| AOTF-Based Imaging Spectrometer and Its Applications in the Identification of Metameric Targets |
| LIU Kang, GAO Zhi-fan, WU Qiong-shui*, ZENG Li-bo* |
| School of Electronic Information, Wuhan University, Wuhan 430079,China |
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Abstract For obtaining spectrum information and space distribution information of metameric targets at the same time, an AOTF-based imaging spectrometer was developed, which consists of a front imaging lens assembly, an AOTF filter imaging module, an AOTF driver, a plane array CCD, an image acquisition card and a PC. Under the control of the PC, a spectral image cube can be obtained by a fast wavelength scanning process, thereby the spectrum information of any point on the image is available. The developed imaging spectrometer, with a spectral range from 550~1 000 nm and a spectral resolution of 2.6 nm(@632 nm), and a less than 80 s switch time between any two wavelengths, has the characteristics of no mechanical moving part, low power dissipation and strong vibration resistance. The identification test of true and false roses and the information recovery experiment of altered physical evidence were carried out, The true and false roses were identified and the altered physical evidence was recovered, The experimental results showed that the imaging spectrometer has an excellent ability of identifying metameric targets, indicating a good application prospect.
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Received: 2014-07-28
Accepted: 2014-11-08
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Corresponding Authors:
WU Qiong-shui, ZENG Li-bo
E-mail: qswu@whu.edu.cn; lbzeng@whu.edu.cn
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[1] Ward J, Farries M, Pannell C, et al. Proc. SPIE, 2010, 7835: 78350U.
[2] Ren H, Chang C I. IEEE Transactions on Aerospace and Electronic Systems, 2003, 39(4): 1232.
[3] Rajwa Bartek, Ahmed Wamiq, Venkatapathi Murugesan, et al. Proc. SPIE, 2005, 5694: 16.
[4] Del Bianco A, Serafino G, Spock G. An introduction to Spectral Imaging. In Useful and Advanced Information in the Filed of Near Infrared Spectroscopy in Research Signpost, 2003, 661(2): 55.
[5] Atlan Michael, Gross Michel. Applied Physics Letters, 2007, 91: 11.
[6] Perchik A V. Proc. SPIE, 2013, 8888: 88880P.
[7] Liu Jifan, Ma Yanhua, Zhang Lei, et al. Infrared and Laser Engineering, 2013, 11(42): 3065.
[8] XIAO Li-feng, HU Hong-zhang, ZHANG Mei, et al(肖立峰,胡鸿章, 张 梅,等). China Laser(中国激光), 2004, 31(3): 269.
[9] Korablev O, Fedorova A, Bertaux J L, et al. Planetary and Space Science, 2012, 65(1): 38.
[10] JIANG Yi, ZENG Li-bo, WU Qiong-shui, et al(江 益,曾立波,吴琼水, 等). Optical Technique(光学技术), 2005, 31(2): 193.
[11] YANG Wei, LIU Ying, XIAO Li-feng, et al(杨 薇,刘 迎,肖立峰,等). Chinese Laser(中国激光), 2009, (10): 2734. |
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