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Optical Communication Technology, Volume. 46, Issue 3, 81(2022)

Numerical simulation of distorted light intensity diagram in freespace optical communication

WAN Zuyang1, WANG Chaoze2, JIN Biao1, and LIU Weiyue1
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  • 2[in Chinese]
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    [1] [1] ANTHONISAMY A BR, DURAIRAJ P, PAUL L J. Performance analysis of free space optical communication in open-atmospheric turbulence conditions with beam wandering compensation control[J]. IET Communications, 2016, 10(9): 1096-1103.

    [2] [2] WYNGAARD J C. Atmospheric turbulence[J]. Annual Review of Fluid Mechanics, 1992, 24(1): 205-234.

    [3] [3] ZHU X, KAHN J M. Free-space optical communication through atmospheric turbulence channels[J]. IEEE Transactions on communications, 2002, 50(8): 1293-1300.

    [5] [5] TATEIBA M. Theoretical study on wave propagation and scattering in random media and its application[J]. IEICE transactions on electronics, 2010, 93(1): 3-8.

    [6] [6] ANDREWS L C. Laser beam propagation through random media[M]. Bellingham: SPIE, 2005.

    [7] [7] ZHILU Z, DONGMEI C, PENG J, et al. Fast simulation for high precision atmospheric turbulence phase screen based on power spectrum[J]. Laser & Optoelectronics Progress, 2017(2): 79-87.

    [8] [8] KHORIN P A. Analysis wavefront propagating in free space based on the Zernike polynomials and Gauss-Laguerre modes expansion[C]//IOP. Proceedings of The IV International Conference on Information Technology and Nanotechnology, Samara: IOP, 2018: 012104-1-012104-9.

    [10] [10] TYSON R K. Principles of adaptive optics[M]. Boca Raton: CRC press, 2015.

    [11] [11] NOLL R J. Zernike polynomials and atmospheric turbulence[J]. JOsA, 1976, 66(3): 207-211.

    [12] [12] RODDIER N A. Atmospheric wavefront simulation using Zernike polynomials[J]. Optical Engineering, 1990, 29(10): 1174-1180.

    [13] [13] COLLINGS N. Fourier optics in image processing[M]. Boca Raton:CRC Press, 2018.

    [14] [14] LUKIN V P, FORTES B V. Phase correction of an image turbulence broadening under conditions of strong intensity fluctuations[C]//SPIE. Proceedings ofPropagation and Imaging through the Atmosphere III. International Society for Optics and Photonics, Denver: SPIE, 1999, 3763: 61-72.

    [15] [15] BIRNIR B. The Kolmogorov-Obukhov statistical theory of turbulence[J]. Journal of Nonlinear Science, 2013, 23(4): 657-688.

    [16] [16] WANG M, GUO W, YUAN X. Single-shot wavefront sensing with deep neural networks for free-space optical communications[J]. Optics Express, 2021, 29(3): 3465-3478.

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    WAN Zuyang, WANG Chaoze, JIN Biao, LIU Weiyue. Numerical simulation of distorted light intensity diagram in freespace optical communication[J]. Optical Communication Technology, 2022, 46(3): 81

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    Paper Information

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    Received: Nov. 11, 2021

    Accepted: --

    Published Online: Jul. 21, 2022

    The Author Email:

    DOI:10.13921/j.cnki.issn1002-5561.2022.03.017

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology