Near Zero Laser Speckle Liquid Crystal Device

被引:1
|
作者
Harden, John [1 ]
Chang, Kai-Han [2 ]
Seder, Thomas [2 ]
Chien, Liang-Chy [1 ]
机构
[1] Kent State Univ, Liquid Crystal Inst, Kent, OH 44242 USA
[2] Gen Motors Res & Dev, Warren, MI USA
来源
EMERGING LIQUID CRYSTAL TECHNOLOGIES XV | 2020年 / 11303卷
关键词
Laser Speckle Reduction; Liquid Crystal; Nematic; Laser; Projection Display;
D O I
10.1117/12.2540168
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Laser-based displays suffer from speckle noise due to the random inference patterns of scattered coherent light from rough surfaces. Commonly utilized solution, such as moving diffusers, creates time-varying speckle patterns that were averaged on the observer's retina or the image sensor. This solution requires the use of motorized parts and can be bulky with the potential risk of mechanical failure. We present a liquid crystal device that reduces speckle noise by over 90%. It is electrically driven, compact, and with no motorized parts. The randomized, time-varying domains with mismatched refractive indices of the liquid crystals produce varying speckle patterns. A near zero speckle contrast is achieved.
引用
收藏
页数:6
相关论文
共 50 条
  • [21] Laser-damage-resistant photoalignment layers for high-peak-power liquid crystal device applications
    Marshall, K. L.
    Gan, J.
    Mitchell, G.
    Papernov, S.
    Rigatti, A. L.
    Schmid, A. W.
    Jacobs, S. D.
    LIQUID CRYSTAL XII, 2008, 7050
  • [22] Introduction of Liquid Crystal device into THz phase imaging
    Ito, Ryota
    Takahashi, Takuya
    Honma, Michinori
    Nose, Tohsiaki
    TERAHERTZ, RF, MILLIMETER, AND SUBMILLIMETER-WAVE TECHNOLOGY AND APPLICATIONS VIII, 2015, 9362
  • [23] Broadband image steering using a liquid crystal device
    Weinschenk, JJ
    Hardie, RC
    Barnard, KJ
    Harris, SR
    McManamon, PF
    Watson, EA
    INFRARED TECHNOLOGY AND APPLICATIONS XXVII, 2001, 4369 : 149 - 156
  • [24] Liquid crystal optics for laser beam modulation
    Kurihara, M.
    Hashimoto, N.
    OPTOMECHATRONIC ACTUATORS, MANIPULATION, AND SYSTEMS CONTROL, 2006, 6374
  • [25] Reduction of laser speckle noise by using particle-dispersed liquid crystals
    Ishikawa, Hayato
    Shibase, Atsushi
    Weng, Wu
    Ono, Masatoshi
    Furue, Hirokazu
    MOLECULAR CRYSTALS AND LIQUID CRYSTALS, 2017, 646 (01) : 93 - 98
  • [26] Semiconductor laser device with quantum dots for transmission in the near infrared
    Gonzalez-Fernandez, J. V.
    Diaz de Leon-Zapata, R.
    Lara-Velazquez, I.
    Ortega-Gallegos, J.
    REVISTA MEXICANA DE FISICA, 2019, 65 (01) : 43 - 48
  • [27] Emission behavior of electroluminescent device using a liquid crystal and an electrolyte
    Mochizuki, H
    Ikeda, T
    THIN SOLID FILMS, 2006, 499 (1-2) : 147 - 152
  • [28] Transmittance control of a liquid crystal device using a dye mixture
    Ji, Seong-Min
    Oh, Seung-Won
    Jo, Young-Seo
    Nam, Seung-Min
    Kim, Sang-Hyeok
    Huh, Jae-Won
    Lim, Eunjung
    Kim, Jinhong
    Yoon, Tae-Hoon
    LIQUID CRYSTALS XXII, 2018, 10735
  • [29] Formation of Dual Threshold in a Vertical Alignment Liquid Crystal Device
    Choi, Sun-Wook
    Jin, Huilian
    Kim, Ki-Han
    Lee, Ji-Hoon
    Kim, Hoon
    Shin, Ki-Chul
    Kim, Hee Seop
    Yoon, Tae-Hoon
    JOURNAL OF THE OPTICAL SOCIETY OF KOREA, 2012, 16 (02) : 170 - 173
  • [30] A random laser made of nematic liquid crystal doped with a laser dye
    Sznitko, L.
    Kaliciak, K.
    Adamow, A.
    Mysliwiec, J.
    OPTICAL MATERIALS, 2016, 56 : 121 - 128
12345