Authors: Meifang Xu, Yunbo Shi, Guoxian Tang, Jun Liu, Xuyuan Chen

Abstract:

Speckle phenomena results from when coherent radiation is reflected from a rough surface. Characterizing the speckle strongly depends on the measurement condition and experimental setup. In this paper we report the experimental results produced with different parameters in the setup. We investigated the factors which affects the speckle contrast, such as, F-number, gamma value and exposure time of the camera, rather than geometric factors like the distance between the projector lens to the screen, the viewing distance, etc. The measurement results show that the speckle contrast decreases by decreasing F-number, by increasing gamma value, and slightly affects by exposure time of the camera and the gain value of the camera.

Keywords: Characterization, laser projector, speckle

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1334476

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References:

[1] P. Janssens, K. Malfait, "Future prospects of high-end laser projectors", Proc. SPIE 7232, 7232-34 (2009).
[2] Victor Yurlov, Anatoly Lapchuk, Sangkyeong Yun, Jonghyeong Song, Injae Yeo, Haengseok Yang, and Seungdo An. "Speckle suppression in scanning laser displays: aberration and defocusing of the projection system". APPLIED OPTICS,Vol. 48, No.1,80-90 (2009).
[3] M. Nadeem Akram, Zhaomin Tong, Guangmin Ouyang, Xuyuan Chen, and Vladimir Kartashov, "Laser speckle reduction due to spatial and angular diversity introduced by fast scanning micromirror", Appl. Opt., Vol. 49, No. 17, 3297-3304(2010).
[4] M. Nadeem Akram, Vladimir Kartashov, and Zhaomin Tong, "Speckle reduction in line-scan laser projectors using binary phase codes", Opt. Lett., Vol. 35, No. 3, 444-446(2010).
[5] Guangmin Ouyang, Zhaomin Tong, M. Nadeem Akram, Kaiying Wang, Vladimir Kartashov, Xin Yan, and Xuyuan Chen, "Speckle reduction using a motionless diffractive optical element", Opt. Lett., Vol. 35, No. 17, 2852-2854(2010).
[6] A.C. Völker, P. Zakharov, B. Weber, F. Buck and F. Scheffold, "Laser speckle imaging with an active noise reduction scheme", Opt. Expr., Vol. 13, No. 24, 9782-9787(2005).
[7] Ichiro Fujieda, Takashi Kosugi, and Yuta Inaba, "Speckle Noise Evaluation and Reduction of an Edge-Lit Backlight System Utilizing Laser Diodes and an Optical Fiber", Journal of Display Technology, Vol.5, No.11, 414-417(2009).
[8] Lee, Y. M., Park, J. M., Park, S. Y. and Lee, S. G., "A study of the relationships between human perception and the physical phenomenon of speckle", SID Int. Symp. Digest Tech. Papers P-45, 1347-1350 (2008).
[9] ICDM Home Page. http://icdm-sid.org/.
[10] J.W. Goodman, "Speckle Phenomena in Optics", Roberts and Company, Englewood, Colorado, 2007.
[11] A. Ennos, "Speckle interferometry," in Laser Speckle and Related Phenomena, J.C. Dainty, ed. (Springer-Verlag, 1975).
[12] http://www.osiris-project.eu/uploads/presentations/laser_projector_spec kle_measurements_sideurodisplay09.pdf.