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    Journals >Optoelectronic Technology >Volume 43 >Issue 1 >Page 11 > Article
    • Optoelectronic Technology
    • Vol. 43, Issue 1, 11 (2023)
    Experimental Study on Topological Charge Optimization for Displacement Measurement with Conjugated Vortex Beams Interferometry
    Bingyi ZHAO1, Donge ZHAO1,2, Yayun MA1, and Wenbo CHU3
    Author Affiliations
  • 1School of Information and Communication Engineering, North University of China,Taiyuan 03005,CHN
  • 2State Key Laboratory of Electronic Testing Technology,North University of China, Taiyuan030051,CHN
  • 3School of Mechanical and Electrical Engineering,North University of China,Taiyuan00051, CHN
    • show less
    DOI: 10.19453/j.cnki.1005-488x.2023.01.003 Cite this Article
    Bingyi ZHAO, Donge ZHAO, Yayun MA, Wenbo CHU. Experimental Study on Topological Charge Optimization for Displacement Measurement with Conjugated Vortex Beams Interferometry[J]. Optoelectronic Technology, 2023, 43(1): 11 Copy Citation Text show less
    References

    [3] Yan X, Guo L X, Cheng M J et al. Controlling abruptly autofocusing vortex beams to mitigate crosstalk and vortex splitting in free-space optical communication[J]. Optics Express, 26, 12605-12619(2018).

    [4] Hu X Y, Zhao Q, Yu P P et al. Dynamic shaping of orbital-angular-momentum beams for information encoding[J]. Optics Express, 26, 1796-1808(2018).

    [5] Qiu S, Liu T, Li Z M et al. Influence of lateral misalignment on the optical rotational Doppler effect[J]. Applied Optics, 58, 2650-2655(2019).

    [7] Emma Wisniewski-Barker, Gibson Graham M et al. Mechanical Faraday effect for orbital angular momentum-carrying beams[J]. Optics Express, 22, 11690-11697(2014).

    [8] D'Ambrosio V, Spagnolo N, Del R L et al. Photonic polarization gears for ultra-sensitive angular measurements[J]. Nature Communications, 4, 2432(2013).

    [9] Beijersbergen M W, Allen L et al. Astigmatic laser mode converters and transfer of orbital angular momentum[J]. Optics Communications, 96, 123-132(1993).

    [10] Allen L, Padgett M J. The Poynting vector in Laguerre-Gaussian beams and the interpretation of their angular momentum density[J]. Optics Communications, 184, 67-71(2000).

    [11] Flossmann F, Schwarz U T, Max M. Propagation dynamics of optical vortices in Laguerre–Gaussian beams[J]. Optics Communications, 250, 218-230(2005).

    [12] Padgett M, Arlt J, Simpson N. An experiment to observe the intensity and phase structure of Laguerre–Gaussian laser modes[J]. American Journal of Physics, 64, 77-82(1996).

    [13] Izdebskaya Y, Shvedov V, Volyar A. Generation of higher-order optical vortices by a dielectric wedge[J]. Optics Letters, 30, 2472-2474(2005).

    [14] Milne G, Jeffries G D M, Chiu D T. Tunable generation of Bessel beams with a fluidic axicon[J]. Applied Physics Letters, 92, 261101(2008).

    [16] Ding X, Feng G Y, Zhou S H. Detection of phase distribution of vortex beams based on low frequency heterodyne interferometry with a common commercial CCD camera[J]. Applied Physics Letters, 116(2020).

    [17] Verma Gopal, Yadav Gyanendra. Compact picometer-scale interferometer using twisted light[J]. Optics Letters, 44, 3594-3597(2019).

    [21] Sun H B, Wang X Hai, Sun Ping. In-plane displacement measurement using optical vortex phase shifting[J]. Applied Optics, 55, 5610-5613(2016).

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    Bingyi ZHAO, Donge ZHAO, Yayun MA, Wenbo CHU. Experimental Study on Topological Charge Optimization for Displacement Measurement with Conjugated Vortex Beams Interferometry[J]. Optoelectronic Technology, 2023, 43(1): 11
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