Speckle Suppression by Chaotic Laser in Laser Display

Peixin He; Tong Zhao; Zhenmin Shen

doi:10.3788/LOP202259.0714001

[1] Chellappan K V, Erden E, Urey H. Laser-based displays: a review[J]. Applied Optics, 49, F79-F98(2010).

[2] Xu Z Y. Large colour gamut display: the new generation of display technique[J]. Physics, 39, 227-231(2010).

[3] Goodman J W[M]. Speckle phenomena in optics: theory and applications, 1-48(2007).

[4] Zhang S T, Gao W H, Zhao P F et al. Laser speckle reduction due to angular diversity introduced by 2D laser diode array[J]. Chinese Journal of Lasers, 40, 0102005(2013).

[5] Yu N N, Choi J W, Kang H et al. Speckle noise reduction on a laser projection display via a broadband green light source[J]. Optics Express, 22, 3547-3556(2014).

[6] Burdukova O A, Konyshkin V A, Petukhov V A et al. Low-coherence dye laser with an intracavity radiation diffuser[J]. Optics Express, 29, 11453-11467(2021).

[7] Redding B, Choma M A, Cao H. Speckle-free laser imaging using random laser illumination[J]. Nature Photonics, 6, 355-359(2012).

[8] Yao Y, Knox W H. Speckle-free femtosecond red-green-blue (RGB) source from a fiber laser driven spectrally efficient two zero dispersion wavelength fiber source[J]. Optics Express, 23, 536-544(2015).

[9] Xu L H, Wang Y F, Jia Y F et al. Research progress of low-coherence laser[J]. Acta Optica Sinica, 41, 0823008(2021).

[10] Mehta D S, Naik D N, Singh R K et al. Laser speckle reduction by multimode optical fiber bundle with combined temporal, spatial, and angular diversity[J]. Applied Optics, 51, 1894-1904(2012).

[11] Jia Q Y, He F T. Speckle homogenization in laser projecion display[J]. Laser Technology, 37, 400-403(2013).

[12] Lapchuk A, Pashkevich G, Prygun O et al. Very efficient speckle suppression in the entire visible range by one two-sided diffractive optical element[J]. Applied Optics, 56, 1481-1488(2017).

[13] Liang C Y, Zhang W, Rui D W et al. Beam homogenized shaping and speckle suppression in laser projection display system using liquid crystal on silicon[J]. Chinese Journal of Lasers, 43, 1201001(2016).

[14] Du T Y, Kong Y, Qian X L et al. Suppression of speckle noise in digital holography with spatial and temporal domain depolarization[J]. IEEE Access, 8, 22266-22274(2020).

[15] Fu H Y, Liu W Q, Wei Z L et al. Speckle reduction using rotating random micro-lens array in laser display[J]. Chinese Journal of Liquid Crystals and Displays, 30, 359-364(2015).

[16] Ma X H, Wang A T, Ma F et al. Speckle reduction using phase plate array and lens array[J]. Opto-Electronic Advances, 3, 190036(2020).

[17] Deng L X, Dong T H, Fang Y W et al. Speckle reduction in laser projection based on a rotating ball lens[J]. Optics & Laser Technology, 135, 106686(2021).

[18] Kuratomi Y, Sekiya K, Satoh H et al. Speckle reduction mechanism in laser rear projection displays using a small moving diffuser[J]. Journal of the Optical Society of America A, 27, 1812-1817(2010).

[19] Rawson E G, Nafarrate A B, Norton R E et al. Speckle-free rear-projection screen using two close screens in slow relative motion[J]. Journal of the Optical Society of America, 66, 1290-1294(1976).

[20] Redding B, Allen G, Dufresne E R et al. Low-loss high-speed speckle reduction using a colloidal dispersion[J]. Applied Optics, 52, 1168-1172(2013).

[21] Chen D, Lebby M S, Jachimowicz K E. Non-speckle liquid crystal projection display[P/OL]. https://patents.google.com/patent/US6122023A

[22] Liu J, Huang X H, Wu J H et al. Adaptive total variation speckle denoising method based on sine-cosine decomposition[J]. Chinese Journal of Lasers, 47, 1004004(2020).

[23] Qiu Y, Tang C, Xu M et al. Shearlet-transform-based improved total variation speckle denoising method[J]. Laser & Optoelectronics Progress, 57, 021003(2020).

[24] Chen Z X. Laser spot suppression device and suppression method of laser projection systems[P].

[25] Omar S, Nicolas D. Speckle removal for a laser scanning projector[P].

[26] Fan Y Y, Zhao J S, Wu Y T et al. Spectral dispersion principle-based method and device for adjusting laser coherence length[P].

[27] Wu L, Lin J M, Ren C. A visible light semiconductor laser with broadband output[P].

[28] Wu L, Ling J W, Ma Y J et al. A method to reduce laser speckle effect[P].

[29] Wu L, Ling J W, Chen Y P et al. Optical structure and manufacturing method for reducing laser speckle effect[P].

[30] Soriano M C, García-Ojalvo J, Mirasso C R et al. Complex photonics: dynamics and applications of delay-coupled semiconductors lasers[J]. Reviews of Modern Physics, 85, 421(2013).

[31] Schwefel H G L, Türeci H E. A chaotic approach clears up imaging[J]. Science, 348, 189-190(2015).

[32] Cao H, Chriki R, Bittner S et al. Complex lasers with controllable coherence[J]. Nature Reviews Physics, 1, 156-168(2019).

[33] Peil M, Fischer I, Elsäßer W. Spectral broadband dynamics of semiconductor lasers with resonant short cavities[J]. Physical Review A, 73, 023805(2006).

[34] Wang Y C, Kong L Q, Wang A B et al. Coherence length tunable semiconductor laser with optical feedback[J]. Applied Optics, 48, 969-973(2009).

[35] Redding B, Cerjan A, Huang X et al. Low spatial coherence electrically pumped semiconductor laser for speckle-free full-field imaging[J]. Proceedings of the National Academy of Sciences, 112, 1304-1309(2015).

[36] Halpaap D, Marconi M, Hernandez R et al. Experimental study of speckle patterns generated by low-coherence semiconductor laser light[J]. Chaos: an Interdisciplinary Journal of Nonlinear Science, 30, 063147(2020).

[37] Peil M, Fischer I, Elsäßer W et al. Rainbow refractometry with a tailored incoherent semiconductor laser source[J]. Applied Physics Letters, 89, 091106(2006).

[38] Roelandt S, Meuret Y, Craggs G et al. Standardized speckle measurement method matched to human speckle perception in laser projection systems[J]. Optics Express, 20, 8770-8783(2012).

[39] Cheng W Z, Tong Z M, Jia S T et al. Laser speckle reduction using motionless image conduits[J]. Optical Review, 25, 143-148(2018).

[40] Huang Q, Duan X Y, He Y W et al. Optical lens designed for speckle measurement based on human eyes resolution cells on speckle pattern induced by laser projector[J]. Optics & Laser Technology, 112, 229-235(2019).

[41] Zhang Q Q, Zhang J G, Li P et al. Boolean-chaos-based physical random number generator[J]. Journal on Communications, 40, 201-206(2019).