[1] Wang Guiqiang. Fingerprints Optical Manifestation and Photographic Technology[M]. Beijing: Qunzhong Press, 2001
[2] Li Xin, Wang Guiqiang. The development of latent fingerprint on mirrory surface using polarization photography[J]. Forensic Science and Technology, 2007, (1): 7~8
[3] Jin Guiping, Pang Qichang. Development of UV fingerprint identification device[J]. Optics and Precision Engineering, 2003, 11(2): 95~99
[4] Shi Feng, Cheng Hongchang, He Yingping. The method for eliminating bright spot in the field of view center in UV fingerprint identification camera system[J]. J. Applied Optics, 2007, 28(1): 20~23
[5] G. A. Payne. A further study to investigate the detection and enhancement of latent fingerprints using visible absorption and luminescence chemical imaging[J]. Forensic Science International, 2005, 150(1): 33~51
[6] N. J. Crane. Infrared spectroscopic imaging for noninvasive detection of latent fingerprints[J]. J. Forensic Science, 2007, 52(1): 48~53
[7] M. Tahtouh. The application of infrared chemical imaging to the detection and enhancement of latent fingerprints: method optimization and futher findings[J]. J. Forensic Science, 2007, 52(5): 1082~1096
[8] Tai Zhiqiang, Zhang Ying. Experimental research on developing sweat latent fingerprint by fluorescence photography under low temperature[J]. Forensic Science and Technology, 2004, (6): 13~15
[9] Tai Zhiqiang. Experimental research on developing latent fingerprint by fluorescence photography[J]. J. Jiangsu Police Officer College, 2010, 25(1): 183~186
[10] Ma Rongliang, Chang Bainian. Development of fingerprint by inherent fluorescence[J]. Forensic Science and Technology, 2001, (6): 17~18
[11] Yuan Yanyi. Study on the ways of remove background disturbance in fingerprint photograph[J]. J. Sichuan Police College, 2005, 17(3): 48~51
[12] Zhen Xiang, Jianhong Ge, Zhigang Zhao et al.. 1.9 W flash-lamp-pumped solid-state 266 nm ultraviolet laser[J]. Chin. Opt. Lett., 2009, 7(6): 502~504
