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    Journals >Optical Instruments >Volume 47 >Issue 1 >Page 14 > Article
    • Optical Instruments
    • Vol. 47, Issue 1, 14 (2025)
    Generation and Talbot effect of optical vortex lattices with high orbital angular momentum
    Yidan ZHANG1, Hao GUO1, Zijing WANG1, Hao LUO1..., Peng LI1,2 and Zhenkun WU1,2,*|Show fewer author(s)
    Author Affiliations
  • 1School of Physics and Electronics, Henan University, Kaifeng 475004, China
  • 2International Joint Research Laboratory of New Energy Materials and Devices of Henan Province, Henan University, Kaifeng 475004, China
    • show less
    DOI: 10.3969/j.issn.1005-5630.202411050099 Cite this Article
    Yidan ZHANG, Hao GUO, Zijing WANG, Hao LUO, Peng LI, Zhenkun WU. Generation and Talbot effect of optical vortex lattices with high orbital angular momentum[J]. Optical Instruments, 2025, 47(1): 14 Copy Citation Text show less
    References

    [1] CHEN Y H, PONOMARENKO S A, CAI Y J. Experimental generation of optical coherence lattices[J]. Applied Physics Letters, 109, 061107(2016).

    [2] LIU X L, YU J Y, CAI Y J et al. Propagation of optical coherence lattices in the turbulent atmosphere[J]. Optics Letters, 41, 4182-4185(2016).

    [3] QIAN Y X, SHI Y L, JIN W M et al. Annular arrayed-Airy beams carrying vortex arrays[J]. Optics Express, 27, 18085-18093(2019).

    [4] FRANKE-ARNOLD S, LEACH J, PADGETT M J et al. Optical ferris wheel for ultracold atoms[J]. Optics Express, 15, 8619-8625(2007).

    [5] DUDLEY A, FORBES A. From stationary annular rings to rotating Bessel beams[J]. Journal of the Optical Society of America A, 29, 567-573(2012).

    [6] LI X Z, ZHANG H. Anomalous ring-connected optical vortex array[J]. Optics Express, 28, 13775-13785(2020).

    [7] CHEN L X, ZHANG W H, LU Q H et al. Making and identifying optical superpositions of high orbital angular momenta[J]. Physical Review A, 88, 053831(2013).

    [8] ZHU L H, TANG M M, LI H H et al. Optical vortex lattice: an exploitation of orbital angular momentum[J]. Nanophotonics, 10, 2487-2496(2021).

    [9] LUO H, SANG S L, XIAO Z H et al. Generation and Talbot effect of optical vortex lattices with high orbital angular momenta[J]. Advanced Quantum Technologies, 6, 2300203(2023).

    [10] YANG K B, LUO H, LI P et al. Controlling spacing of double-ring perfect optical vortex using the Fourier transform of Bessel beam with axicon phase[J]. Optics & Laser Technology, 158, 108881(2023).

    [11] ZHAO Q, DONG M, BAI Y H et al. Measuring high orbital angular momentum of vortex beams with an improved multipoint interferometer[J]. Photonics Research, 8, 745-749(2020).

    [12] CHU X X. Propagation of a cosh-Gaussian beam through an optical system in turbulent atmosphere[J]. Optics Express, 15, 17613-17618(2007).

    [13] KUMAR P, NISHCHAL N K. Array formation of optical vortices using in-line phase modulation[J]. Optics Communications, 493, 127020(2021).

    [14] TALBOT H F. LXXVI. Facts relating to optical science. No. IV[J]. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 9, 401-407(1836).

    [15] ZHAO J J, WU Y, LIN Z J et al. Autofocusing self-imaging: symmetric Pearcey Talbot-like effect[J]. Optics Express, 30, 14146-14160(2022).

    [16] ZHONG H, ZHANG Y Q, BELIĆ M R et al. Generating Lieb and super-honeycomb lattices by employing the fractional Talbot effect[J]. Journal of the Optical Society of America B, 36, 862-866(2019).

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    Yidan ZHANG, Hao GUO, Zijing WANG, Hao LUO, Peng LI, Zhenkun WU. Generation and Talbot effect of optical vortex lattices with high orbital angular momentum[J]. Optical Instruments, 2025, 47(1): 14
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