Real time adaptive optics correction with a ferroelectric liquid crystal spatial light modulator and Shack-Hartmann wavefront sensor

被引:4
|
作者
Birch, PM
Gourlay, J
Doble, NP
Purvis, A
机构
来源
ADAPTIVE OPTICS AND APPLICATIONS | 1997年 / 3126卷
关键词
ferroelectric liquid crystal; binary correction; halfwave correction;
D O I
10.1117/12.290146
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Liquid crystal (LC) based spatial light modulators (SLM) offer a low cost alternative to the expensive deformable mirrors used in most adaptive optics systems. Real time correction of simulated atmospheric turbulence is demonstrated. The corrective element is a 10 by 10 pixel ferroelectric liquid crystal (FLC) SLM. An improvement in the Strehl ratio from 23% to 33% with a frame rate of 6Hz was demonstrated. A nematic liquid crystal (NLC) SLM was used to generate realistic atmospheric turbulence.
引用
收藏
页码:185 / 190
页数:6
相关论文
共 50 条
  • [31] Objective quantification and spatial mapping of cataract with a Shack-Hartmann wavefront sensor
    Hollo, Csaba Tamas
    Mihaltz, Kata
    Kurucz, Mate
    Csorba, Anita
    Kranitz, Kinga
    Kovacs, Illes
    Nagy, Zoltan Zsolt
    Erdei, Gabor
    SCIENTIFIC REPORTS, 2020, 10 (01)
  • [32] Multi dither adaptive system based on Shack-Hartmann wavefront sensor
    Sheldakova, J.
    Kudryashov, A.
    Samarkin, V.
    Alexandrov, A.
    LASER RESONATORS AND BEAM CONTROL XII, 2010, 7579
  • [33] Rapid and highly integrated FPGA-based Shack-Hartmann wavefront sensor for adaptive optics system
    Chen, Yi-Pin
    Chang, Chia-Yuan
    Chen, Shean-Jen
    ADAPTIVE OPTICS AND WAVEFRONT CONTROL FOR BIOLOGICAL SYSTEMS IV, 2018, 10502
  • [34] Arbitrary wavefront uncertainty evaluation for the Shack-Hartmann wavefront sensor using physical optics propagation
    Zhou, Jichong
    He, Qiaozhi
    Qu, Yuan
    Zhao, Dineng
    Wu, Ziyin
    Yang, Jiamiao
    APPLIED PHYSICS LETTERS, 2023, 123 (07)
  • [35] Influence of Lack of Light in Partial Subapertures on Wavefront Reconstruction for Shack-Hartmann Wavefront Sensor
    We Ping
    Li Xinyang
    Luo Xi
    Li Jianfeng
    CHINESE JOURNAL OF LASERS-ZHONGGUO JIGUANG, 2020, 47 (04):
  • [36] Research of real time processing technology for high sampling frequency Shack-Hartmann wavefront sensor
    Qiangjiguang Yu Lizishu, 5 (579-582):
  • [37] A REFLECTIVE SHACK-HARTMANN WAVE-FRONT SENSOR FOR ADAPTIVE OPTICS
    COLUCCI, D
    LLOYDHART, M
    WITTMAN, D
    ANGEL, R
    GHEZ, A
    MCLEOD, B
    PUBLICATIONS OF THE ASTRONOMICAL SOCIETY OF THE PACIFIC, 1994, 106 (704) : 1104 - 1110
  • [38] Femtosecond laser processing with aberration correction based on Shack-Hartmann wavefront sensor
    Wang, Xiangyu
    Zhu, Lei
    Zhang, Qi
    Yang, Liang
    Tang, Min
    Xiao, Fei
    Wang, Xiaodong
    Shen, Shiyang
    Zhang, Lanqiang
    Guo, Youming
    OPTICS AND LASERS IN ENGINEERING, 2025, 184
  • [39] Numerical simulations of dynamic phase correction of laser radiation by the adaptive system with the Shack-Hartmann wavefront sensor
    Volkov, M. V.
    Starikov, F. A.
    Shnyagin, R. A.
    INTERNATIONAL CONFERENCE LASER OPTICS 2020 (ICLO 2020), 2020,
  • [40] Increase of adaptive correction efficiency of turbulent distortions on basis of measurements obtained by the Shack-Hartmann wavefront sensor
    Antoshkin, L. V.
    Lavrinov, V. V.
    Lavrinova, L. N.
    Lukin, V. P.
    OPTICS IN ATMOSPHERIC PROPAGATION AND ADAPTIVE SYSTEMS XIV, 2011, 8178
12345