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Chinese Optics Letters
Vol. 21, Issue 11, 112601 (2023)

Optical spiral vortex from azimuthally increasing/decreasing exponential phase gradients

Peihua Jie¹, Zhenwei Xie^1、*, and Xiaocong Yuan^1、2、**

Author Affiliations

¹Nanophotonics Research Centre, Institute of Microscale Optoelectronics & State Key Laboratory of Radio Frequency Heterogeneous Integration, Shenzhen University, Shenzhen 518060, China

²Research Center for Humanoid Sensing, Zhejiang Laboratory, Hangzhou 311100, China

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DOI: 10.3788/COL202321.112601 Cite this Article Set citation alerts

Peihua Jie, Zhenwei Xie, Xiaocong Yuan. Optical spiral vortex from azimuthally increasing/decreasing exponential phase gradients[J]. Chinese Optics Letters, 2023, 21(11): 112601 Copy Citation Text

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References

[1] L. Allen, M. W. Beijersbergen, R. J. C. Spreeuw, J. P. Woerdman. Orbital angular momentum of light and the transformation of Laguerre–Gaussian laser modes. Phys. Rev. A, 45, 8185(1992).

[2] Y. Shen, X. Wang, Z. Xie, C. Min, X. Fu, Q. Liu, M. Gong, X. Yuan. Optical vortices 30 years on: OAM manipulation from topological charge to multiple singularities. Light Sci. Appl., 8, 90(2019).

[3] D. G. Grier. A revolution in optical manipulation. Nature, 424, 810(2003).

[4] M. Padgett, R. Bowman. Tweezers with a twist. Nat. Photonics, 5, 343(2011).

[5] Y. J. Yang, Y. X. Ren, M. Z. Chen, Y. Arita, C. Rosales-Guzman. Optical trapping with structured light: a review. Adv. Photonics, 3, 034001(2021).

[6] J. Wang, J.-Y. Yang, I. M. Fazal, N. Ahmed, Y. Yan, H. Huang, Y. Ren, Y. Yue, S. Dolinar, M. Tur, A. E. Willner. Terabit free-space data transmission employing orbital angular momentum multiplexing. Nat. Photonics, 6, 488(2012).

[7] A. E. Willner, H. Huang, Y. Yan, Y. Ren, N. Ahmed, G. Xie, C. Bao, L. Li, Y. Cao, Z. Zhao, J. Wang, M. P. J. Lavery, M. Tur, S. Ramachandran, A. F. Molisch, N. Ashrafi, S. Ashrafi. Optical communications using orbital angular momentum beams. Adv. Opt. Photonics, 7, 66(2015).

[8] Z. Xie, S. Gao, T. Lei, S. Feng, Y. Zhang, F. Li, J. Zhang, Z. Li, X. Yuan. Integrated (de)multiplexer for orbital angular momentum fiber communication. Photonics Res., 6, 743(2018).

[9] T. Stav, A. Faerman, E. Maguid, D. Oren, V. Kleiner, E. Hasman, M. Segev. Quantum entanglement of the spin and orbital angular momentum of photons using metamaterials. Science, 361, 1101(2018).

[10] A. Mair, A. Vaziri, G. Weihs, A. Zeilinger. Entanglement of the orbital angular momentum states of photons. Nature, 412, 313(2001).

[11] E. Nagali, F. Sciarrino, F. De Martini, L. Marrucci, B. Piccirillo, E. Karimi, E. Santamato. Quantum information transfer from spin to orbital angular momentum of photons. Phys. Rev. Lett., 103, 013601(2009).

[12] J. Chen, C. H. Wan, Q. W. Zhan. Engineering photonic angular momentum with structured light: a review. Adv. Photonics, 3, 064001(2021).

[13] J. Chu, D. Chu, Q. Smithwick. Encoding and multiplexing of 2D images with orbital angular momentum beams and the use for multiview color displays. Research, 2019, 9564593(2019).

[14] X. Fang, H. Ren, M. Gu. Orbital angular momentum holography for high-security encryption. Nat. Photonics, 14, 102(2020).

[15] L. Gong, Q. Zhao, H. Zhang, X.-Y. Hu, K. Huang, J.-M. Yang, Y.-M. Li. Optical orbital-angular-momentum-multiplexed data transmission under high scattering. Light Sci. Appl., 8, 27(2019).

[16] I. Gianani, A. Suprano, T. Giordani, N. Spagnolo, F. Sciarrino, D. Gorpas, V. Ntziachristos, K. Pinker, N. Biton, J. Kupferman, S. Arnon. Transmission of vector vortex beams in dispersive media. Adv. Photonics, 2, 036003(2020).

[17] H. Huang, G. Xie, Y. Yan, N. Ahmed, Y. Ren, Y. Yue, D. Rogawski, M. J. Willner, B. I. Erkmen, K. M. Birnbaum, S. J. Dolinar, M. P. Lavery, M. J. Padgett, M. Tur, A. E. Willner. 100 Tbit/s free-space data link enabled by three-dimensional multiplexing of orbital angular momentum, polarization, and wavelength. Opt. Lett., 39, 197(2014).

[18] X. Y. Fang, H. C. Yang, W. Z. Yao, T. X. Wang, Y. Zhang, M. Gu, M. Xiao. High-dimensional orbital angular momentum multiplexing nonlinear holography. Adv. Photonics, 3, 015001(2021).

[19] S. Li, X. Li, L. Zhang, G. Wang, L. Zhang, M. Liu, C. Zeng, L. Wang, Q. Sun, W. Zhao, W. Zhang. Efficient optical angular momentum manipulation for compact multiplexing and demultiplexing using a dielectric metasurface. Adv. Opt. Mater., 8, 1901666(2020).

[20] L. Gong, Q. Zhao, H. Zhang, X. Y. Hu, K. Huang, J. M. Yang, Y. M. Li. Optical orbital-angular-momentum-multiplexed data transmission under high scattering. Light Sci. Appl., 8, 27(2019).

[21] B. Liu, Y. He, S. W. Wong, Y. Li. Multifunctional vortex beam generation by a dynamic reflective metasurface. Adv. Opt. Mater., 9, 2001689(2021).

[22] H. Ahmed, H. Kim, Y. Zhang, Y. Intaravanne, J. Jang, J. Rho, S. Chen, X. Chen. Optical metasurfaces for generating and manipulating optical vortex beams. Nanophotonics, 11, 941(2022).

[23] P. Li, S. Liu, T. Peng, G. Xie, X. Gan, J. Zhao. Spiral autofocusing Airy beams carrying power-exponent-phase vortices. Opt. Express, 22, 7598(2014).

[24] H. Zhang, X. Lu, Z. Wang, A. P. Konijnenberg, H. Wang, C. Zhao, Y. Cai. Generation and propagation of partially coherent power-exponent-phase vortex beam. Front. Phys., 9, 781688(2021).

[25] H. Ma, X. Li, H. Zhang, J. Tang, H. Li, M. Tang, J. Wang, Y. Cai. Optical vortex shaping via a phase jump factor. Opt. Lett., 44, 1379(2019).

[26] X. Zhang, L. Huang, R. Zhao, Q. Wei, X. Li, G. Geng, J. Li, X. Li, Y. Wang, S. Zhang. Multiplexed generation of generalized vortex beams with on-demand intensity profiles based on metasurfaces. Laser Photonics Rev., 16, 2100451(2022).

[27] H. Ahmed, Y. Intaravanne, Y. Ming, M. A. Ansari, G. S. Buller, T. Zentgraf, X. Chen. Multichannel superposition of grafted perfect vortex beams. Adv. Mater., 34, 2203044(2022).

[28] J. Hu, Y. Lan, H. Fan, W. Ye, P. Zeng, Y. Qian, X. Li. Generation and manipulation of multi-twisted beams via azimuthal shift factors. Appl. Phys. Lett., 121, 221103(2022).

[29] Y. Roichman, B. Sun, Y. Roichman, J. Amato-Grill, D. G. Grier. Optical forces arising from phase gradients. Phys. Rev. Lett., 100, 013602(2008).

[30] F. Aieta, P. Genevet, N. Yu, M. A. Kats, Z. Gaburro, F. Capasso. Out-of-plane reflection and refraction of light by anisotropic optical antenna metasurfaces with phase discontinuities. Nano Lett., 12, 1702(2012).

[31] N. F. Yu, P. Genevet, M. A. Kats, F. Aieta, J. P. Tetienne, F. Capasso, Z. Gaburro. Light propagation with phase discontinuities: generalized laws of reflection and refraction. Science, 334, 333(2011).

[32] I. A. Litvin, A. Dudley, A. Forbes. Poynting vector and orbital angular momentum density of superpositions of Bessel beams. Opt. Express, 19, 16760(2011).

[33] A. Aiello, N. Lindlein, C. Marquardt, G. Leuchs. Transverse angular momentum and geometric spin Hall effect of light. Phys. Rev. Lett., 103, 100401(2009).

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Peihua Jie, Zhenwei Xie, Xiaocong Yuan. Optical spiral vortex from azimuthally increasing/decreasing exponential phase gradients[J]. Chinese Optics Letters, 2023, 21(11): 112601

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