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强散射过程中基于奇异值分解的光学传输矩阵优化方法

张熙程 方龙杰 庞霖

强散射过程中基于奇异值分解的光学传输矩阵优化方法

张熙程, 方龙杰, 庞霖
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导出引用
  • 通过测量散射介质的传输矩阵能够控制光在此介质中的传输,但目前没有通过优化传输矩阵(即搜索介质本征传输矩阵)来提高光传输效率的研究.通过测量介质的传输矩阵进行奇异值分解与背景滤波,初步优化了传输矩阵后,提出通过遗传算法再次优化传输矩阵,实现了进一步优化传输矩阵,提高了聚焦效率和信噪比.所提方法为可见光在生物组织中的成像提供了一种新的思路和方法.
      通信作者: 庞霖, panglin_p@yahoo.com
    • 基金项目: 国家自然科学基金(批准号:61377054,61675140)资助的课题.
    [1]

    Vellekoop I M, Mosk A P 2007 Opt. Lett. 32 2309

    [2]

    Vellekoop I M, Mosk A P 2008 Opt. Commun. 281 3071

    [3]

    Conkey D B, Brown A N, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express 20 4840

    [4]

    Booth M J, Neil M A, Juskaitis R, Wilson T 2002 Proc. NAS USA 99 5788

    [5]

    Vellekoop I M 2008 Ph. D. Dissertation (Enschede:Univeristy of Twente) (in Netherlands)

    [6]

    Fang L, Zhang X, Zuo H, Pang L 2018 Opt. Commun. 407 301

    [7]

    Fang L, Zhang C, Zuo H, Zhu J, Pang L 2017 Chin. Opt. Lett. 15 102901

    [8]

    Vellekoop I M, Aegerter C M 2010 Opt. Lett. 35 1245

    [9]

    Vellekoop I M, Aegerter C M 2010 Proc. SPIE 7554 755430

    [10]

    Vellekoop I M, Cui M, Yang C 2012 Appl. Phys. Lett. 101 2309

    [11]

    Vellekoop I M, Lagendijk A, Mosk A P 2010 Nat. Photon. 4 320

    [12]

    Vellekoop I M, Putten E G V, Lagendijk A, Mosk A P 2008 Opt. Express 16 67

    [13]

    Popoff S, Lerosey G, Fink M, Boccara A C, Gigan S 2010 Nat. Commun. 1 81

    [14]

    Popoff S M, Lerosey G, Carminati R, Fink M, Boccara A C, Gigan S 2010 Phys. Rev. Lett. 104 100601

    [15]

    Popoff S M, Lerosey G, Fink M, Boccara A C, Gigan S 2011 New J. Phys. 3 1

    [16]

    Chaigne T, Katz O, Boccara A C, Fink M, Bossy E, Gigan S 2013 Nat. Photon. 8 58

    [17]

    Dai F 1992 IEEE Trans. Microw. Theor. Tech. 40 1538

    [18]

    de Aguiar H B, Gigan S, Brasselet S 2016 Phys. Rev. A 94 043830

    [19]

    Gao G F, Zhao J Z, Fu Z X 2014 Adv. Mat. Res. 1027 262

    [20]

    Guillaume G, Fortin N 2014 J. Building Perform. Simulat. 7 445

    [21]

    Han G, Wang T 2014 The Proceedings of the Second International Conference on Communications, Signal Processing, and Systems Tianjin, China, September 1, 2013 p383

    [22]

    Kim M, Choi W, Choi Y, Yoon C, Choi W 2015 Opt. Express 23 12648

    [23]

    Patil M B, Okuyama Y, Ohkura Y, Toyabe T, Ihara S 1994 Solid-State Electron. 37 1359

    [24]

    Tripathi S, Paxman R, Bifano T, Toussaint K C 2012 Opt. Express 20 16067

    [25]

    Akbulut D, Huisman T J, Putten E G V, Vos W L, Mosk A P 2011 Opt. Express 19 4017

    [26]

    Conkey D B, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express 20 1733

    [27]

    Tao X, Bodington D, Reinig M, Kubby J 2015 Opt. Express 23 14168

    [28]

    Zhang X, Kner P 2014 J. Opt. 16 125704

    [29]

    Li Z, Cao J, Zhao X, Liu W 2015 Opt. Commun. 338 11

    [30]

    Larrat B, Pernot M, Montaldo G, Fink M 2010 IEEE Trans. Ultrason. Ferroelectr. Frequency Control 57 1734

  • [1]

    Vellekoop I M, Mosk A P 2007 Opt. Lett. 32 2309

    [2]

    Vellekoop I M, Mosk A P 2008 Opt. Commun. 281 3071

    [3]

    Conkey D B, Brown A N, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express 20 4840

    [4]

    Booth M J, Neil M A, Juskaitis R, Wilson T 2002 Proc. NAS USA 99 5788

    [5]

    Vellekoop I M 2008 Ph. D. Dissertation (Enschede:Univeristy of Twente) (in Netherlands)

    [6]

    Fang L, Zhang X, Zuo H, Pang L 2018 Opt. Commun. 407 301

    [7]

    Fang L, Zhang C, Zuo H, Zhu J, Pang L 2017 Chin. Opt. Lett. 15 102901

    [8]

    Vellekoop I M, Aegerter C M 2010 Opt. Lett. 35 1245

    [9]

    Vellekoop I M, Aegerter C M 2010 Proc. SPIE 7554 755430

    [10]

    Vellekoop I M, Cui M, Yang C 2012 Appl. Phys. Lett. 101 2309

    [11]

    Vellekoop I M, Lagendijk A, Mosk A P 2010 Nat. Photon. 4 320

    [12]

    Vellekoop I M, Putten E G V, Lagendijk A, Mosk A P 2008 Opt. Express 16 67

    [13]

    Popoff S, Lerosey G, Fink M, Boccara A C, Gigan S 2010 Nat. Commun. 1 81

    [14]

    Popoff S M, Lerosey G, Carminati R, Fink M, Boccara A C, Gigan S 2010 Phys. Rev. Lett. 104 100601

    [15]

    Popoff S M, Lerosey G, Fink M, Boccara A C, Gigan S 2011 New J. Phys. 3 1

    [16]

    Chaigne T, Katz O, Boccara A C, Fink M, Bossy E, Gigan S 2013 Nat. Photon. 8 58

    [17]

    Dai F 1992 IEEE Trans. Microw. Theor. Tech. 40 1538

    [18]

    de Aguiar H B, Gigan S, Brasselet S 2016 Phys. Rev. A 94 043830

    [19]

    Gao G F, Zhao J Z, Fu Z X 2014 Adv. Mat. Res. 1027 262

    [20]

    Guillaume G, Fortin N 2014 J. Building Perform. Simulat. 7 445

    [21]

    Han G, Wang T 2014 The Proceedings of the Second International Conference on Communications, Signal Processing, and Systems Tianjin, China, September 1, 2013 p383

    [22]

    Kim M, Choi W, Choi Y, Yoon C, Choi W 2015 Opt. Express 23 12648

    [23]

    Patil M B, Okuyama Y, Ohkura Y, Toyabe T, Ihara S 1994 Solid-State Electron. 37 1359

    [24]

    Tripathi S, Paxman R, Bifano T, Toussaint K C 2012 Opt. Express 20 16067

    [25]

    Akbulut D, Huisman T J, Putten E G V, Vos W L, Mosk A P 2011 Opt. Express 19 4017

    [26]

    Conkey D B, Caravaca-Aguirre A M, Piestun R 2012 Opt. Express 20 1733

    [27]

    Tao X, Bodington D, Reinig M, Kubby J 2015 Opt. Express 23 14168

    [28]

    Zhang X, Kner P 2014 J. Opt. 16 125704

    [29]

    Li Z, Cao J, Zhao X, Liu W 2015 Opt. Commun. 338 11

    [30]

    Larrat B, Pernot M, Montaldo G, Fink M 2010 IEEE Trans. Ultrason. Ferroelectr. Frequency Control 57 1734

  • 引用本文:
    Citation:
计量
  • 文章访问数:  1890
  • PDF下载量:  166
  • 被引次数: 0
出版历程
  • 收稿日期:  2017-12-19
  • 修回日期:  2018-03-19
  • 刊出日期:  2019-05-20

强散射过程中基于奇异值分解的光学传输矩阵优化方法

  • 1. 四川大学物理科学与技术学院, 成都 610065
  • 通信作者: 庞霖, panglin_p@yahoo.com
    基金项目: 

    国家自然科学基金(批准号:61377054,61675140)资助的课题.

摘要: 通过测量散射介质的传输矩阵能够控制光在此介质中的传输,但目前没有通过优化传输矩阵(即搜索介质本征传输矩阵)来提高光传输效率的研究.通过测量介质的传输矩阵进行奇异值分解与背景滤波,初步优化了传输矩阵后,提出通过遗传算法再次优化传输矩阵,实现了进一步优化传输矩阵,提高了聚焦效率和信噪比.所提方法为可见光在生物组织中的成像提供了一种新的思路和方法.

English Abstract

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