Opto-Electronic Engineering, Volume. 43, Issue 12, 206(2016)
Analysis of Speckle Suppression by Laser Spectral Broadening
[1] [1] Goodman J W. Speckle Phenomena in Optics:Theory and Applications [M]. America:Roberts & Company,2006:125-164.
[3] [3] Kuratomi Y,Sekiya K,Satoh H,et al. Speckle reduction mechanism in laser rear projection displays using a small moving diffuser [J]. JOSA A(S1084-7529),2010,27(8):1812-1817.
[4] [4] OUYANG Guangmin,Akram M N,WANG Kaiying,et al. Laser speckle reduction based on angular diversity induced by Piezoelectric Benders [J]. Journal of the European Optical Society-rapid Publications(S1990-2573),2013,8:13025.
[5] [5] Akram M N,TONG Zhaomin,OUYANG Guangmin,et al. Laser speckle reduction due to spatial and angular diversity introduced by fast scanning micromirror [J]. Applied Optics(S1559-128X),2010,49(17):3297-3304.
[6] [6] Riechert F,Bastian G,Lemmer U. Laser speckle reduction via colloidal-dispersion-filled projection screens [J]. Applied Optics(S1559-128X),2009,48(19):3742-3749.
[7] [7] Redding B,Allen G,Dufresne E R,et al. Low-loss high-speed speckle reduction using a colloidal dispersion [J]. Applied Optics(S1559-128X),2013,52(6):1168-1172.
[8] [8] Tran T-K-T,Svensen ,CHEN Xuyuan,et al. Speckle reduction in laser projection displays through angle and wavelength diversity [J]. Applied Optics(S1559-128X),2016,55(6):1267-1274.
[9] [9] Manni J G,Goodman J W. Versatile method for achieving 1% speckle contrast in large-venue laser projection displays using a stationary multimode optical fiber [J]. Optics Express(S1094-4087),2012,20(10):11288-11315.
[10] [10] Redding B,Choma M A,CAO Hui. Spatial coherence of random laser emission [J]. Optics Letters(S0146-9592),2011, 36(17):3404-3406.
[11] [11] Redding B , Choma M A , CAO Hui. Speckle-free laser imaging using random laser illumination [J]. Nature Photonics(S1749-4885),2012,6(6):355-359.
[12] [12] Lenstra D,Verbeek B H,Den Boef A J. Coherence collapse in single-mode semiconductor lasers due to optical feedback [J]. IEEE Journal of Quantum Electronics(S0018-9197),1985,21(6):674-679.
[13] [13] WANG W M,Boyle W J O,Grattan K T V,et al. Self-mixing interference in a diode laser:experimental observations and theoretical analysis [J]. Applied Optics(S1559-128X),1993,32(9):1551-1558.
[14] [14] De Groot P J. Range-dependent optical feedback effects on the multimode spectrum of laser diodes [J]. Journal of Modern Optics(S0950-0340),1990,37(7):1199-1214.
[15] [15] Schunk N,Petermann K. Numerical analysis of the feedback regimes for a single-mode semiconductor laser with external feedback [J]. IEEE Journal of Quantum Electronics(S0018-9197),1988,24(7):1242-1247.
[16] [16] Goldberg L,Taylor H F,Dandridge A,et al. Spectral characteristics of semiconductor lasers with optical feedback [J]. IEEE Transactions on Microwave Theory and Techniques(S0018-9480),1982,30(4):401-410.
[17] [17] Olsson A,TANG Chungliang. Coherent optical interference effects in external-cavity semiconductor lasers [J]. IEEE Journal of Quantum Electronics(S0018-9197),1981,17(8):1320-1323.
[18] [18] Peil M,Fischer I,Els er W. Spectral broadband dynamics of semiconductor lasers with resonant short cavities [J]. Physical Review A(S1050-2947),2006,73(2):023805.
Get Citation
Copy Citation Text
ZHAO Qiannan, ZHANG Ruifeng, LI Qiang. Analysis of Speckle Suppression by Laser Spectral Broadening[J]. Opto-Electronic Engineering, 2016, 43(12): 206
Category:
Received: Aug. 8, 2016
Accepted: --
Published Online: Dec. 30, 2016
The Author Email: Qiannan ZHAO (zhaoqiannan_job@163.com)