Sagnac-interferometry-based digital optical phase conjugation (DOPC) system for turbidity suppression

被引:0
|
作者
Hillman, Timothy R. [1 ]
Park, YongKeun [1 ]
Yaqoob, Zahid [1 ]
Choi, Wonshik [1 ]
Fu, Dan [1 ]
Yamauchi, Toyohiko [1 ]
Dasari, Ramachandra R. [1 ]
Feld, Michael S. [1 ]
机构
[1] MIT, George R Harrison Spect Lab, Cambridge, MA 02139 USA
来源
THREE-DIMENSIONAL AND MULTIDIMENSIONAL MICROSCOPY: IMAGE ACQUISITION AND PROCESSING XVIII | 2011年 / 7904卷
关键词
Optical phase conjugation; Digital phase conjugation; Turbidity suppression; Multiple scattering; Transmission matrix; Digital holography; Optical wave shaping; 2ND-HARMONIC RADIATION;
D O I
10.1117/12.875918
中图分类号
TH742 [显微镜];
学科分类号
摘要
Multiple scattering is a significant obstacle in the optical imaging of biological samples. However, it is possible to reverse its effects through optical phase conjugation (OPC) of the scattered field. We perform digital OPC (DOPC) utilizing a spatial light modulator (SLM) and a Sagnac interferometer geometry. This design permits a simple and robust DOPC implementation, which we demonstrate experimentally. We exploit the beam-shaping flexibility of the SLM to demonstrate the possibility to enhance either the optical power transmission or the light focusing ability of the DOPC process.
引用
收藏
页数:8
相关论文
共 50 条
  • [21] Implementation of digital optical phase conjugation with embedded calibration and phase rectification
    Yu, Zhipeng
    Xia, Meiyun
    Li, Huanhao
    Zhong, Tianting
    Zhao, Fangyuan
    Deng, Hao
    Li, Zihao
    Li, Deyu
    Wang, Daifa
    Lai, Puxiang
    SCIENTIFIC REPORTS, 2019, 9 (1)
  • [22] Implementation of digital optical phase conjugation with embedded calibration and phase rectification
    Zhipeng Yu
    Meiyun Xia
    Huanhao Li
    Tianting Zhong
    Fangyuan Zhao
    Hao Deng
    Zihao Li
    Deyu Li
    Daifa Wang
    Puxiang Lai
    Scientific Reports, 9
  • [23] Optical phase conjugation in the double Raman system
    Hemmer, PR
    Shahriar, MS
    Katz, DP
    Kumar, P
    Donoghue, J
    CroninGolomb, M
    COHERENCE AND QUANTUM OPTICS VII, 1996, : 435 - 436
  • [24] Toward optimal performance of systems for digital optical phase conjugation
    Wang, Pidong
    Jin, Senlin
    Huang, Feng
    Li, Dong
    Chen, Kun
    Liao, Mingle
    Li, Qian
    Yao, Yao
    PHYSICAL REVIEW APPLIED, 2024, 21 (01)
  • [25] An Automatic Optimized Method for a Digital Optical Phase Conjugation System in Focusing through Scattering Media
    Zhang, Pan
    Li, Zhan
    Han, Lu
    Liu, Dean
    Zhu, Jianqiang
    APPLIED SCIENCES-BASEL, 2020, 10 (23): : 1 - 12
  • [26] Optical and Digital Phase Conjugation Techniques for Fiber Nonlinearity Compensation
    Le, S. T.
    McCarthy, M. E.
    Turitsyn, S. K.
    Phillips, I.
    Lavery, D.
    Xu, T.
    Bayvel, P.
    Ellis, A. D.
    2015 OPTO-ELECTRONICS AND COMMUNICATIONS CONFERENCE (OECC), 2015,
  • [27] Optical tomography using a random diffuser and digital phase conjugation
    Goto, Yuta
    Okamoto, Atsushi
    Shibukawa, Atsushi
    Tomita, Akihisa
    Sato, Kunihiro
    OPTICAL TOMOGRAPHY AND SPECTROSCOPY OF TISSUE XI, 2015, 9319
  • [28] PARALLEL DIGITAL AND SYMBOLIC OPTICAL COMPUTATION VIA OPTICAL-PHASE CONJUGATION
    LI, Y
    EICHMANN, G
    DORISINVILLE, R
    ALFANO, RR
    APPLIED OPTICS, 1988, 27 (10): : 2025 - 2032
  • [29] Ultrafast turbidity compensation in the optical therapeutic window by three-wave mixing phase conjugation
    Guillerm, Mischa
    Devaux, Fabrice
    Froehly, Luc
    Furfaro, Luca
    Lantz, Eric
    JOURNAL OF OPTICS, 2013, 15 (05)
  • [30] Nearly-Ideal Optical Phase Conjugation based Nonlinear Compensation System
    Solis-Trapala, Karen
    Inoue, Takashi
    Namiki, Shu
    2014 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXHIBITION (OFC), 2014,
12345