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Journals >Advanced Photonics >Volume 4 >Issue 5 >Page 050501 > Article

Advanced Photonics
Vol. 4, Issue 5, 050501 (2022)

High-dimensional orbital angular momentum comb

Jian Wang^1、2、*

Author Affiliations

¹Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics and School of Optical and Electronic Information, Wuhan, China

²Optics Valley Laboratory, Wuhan, China

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DOI: 10.1117/1.AP.4.5.050501 Cite this Article Set citation alerts

Jian Wang, "High-dimensional orbital angular momentum comb," Adv. Photon. 4, 050501 (2022) Copy Citation Text

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References

[1] L. Allen et al. Orbital angular-momentum of light and the transformation of Laguerre–Gaussian laser modes. Phys. Rev. A, 45, 8185-8189(1992).

[2] J. Wang et al. Terabit free-space data transmission employing orbital angular momentum multiplexing. Nat. Photonics, 6, 488-496(2012).

[3] J. Wang. Twisted optical communications using orbital angular momentum. Sci. China Phys. Mech., 62, 034201(2019).

[4] M. P. J. Lavery et al. Detection of a spinning object using light’s orbital angular momentum. Science, 341, 537-540(2013).

[5] M. Mirhosseini et al. High-dimensional quantum cryptography with twisted light. New J. Phys., 17, 033033(2015).

[6] J. Liu et al. Multidimensional entanglement transport through single-mode fiber. Sci. Adv., 6, eaay0837(2020).

[7] S. Fu et al. Orbital angular momentum comb generation from azimuthal binary phases. Adv. Photonics Nexus, 1, 016003(2022).

[8] J. Lin et al. Collinear superposition of multiple helical beams generated by a single azimuthally modulated phase-only element. Opt. Lett., 30, 3266-3268(2005).

[9] L. Zhu, J. Wang. Simultaneous generation of multiple orbital angular momentum (OAM) modes using a single phase-only element. Opt. Express, 23, 26221-26233(2015).

[10] L. Zhu, J. Wang. A review of multiple optical vortices generation: methods and applications. Front. Optoelectron., 12, 52-68(2019).

[11] S. Fu et al. Experimental demonstration of free-space multi-state orbital angular momentum shift keying. Opt. Express, 27, 33111-33119(2019).

[12] H. Dammann, E. Klotz. Coherent optical generation and inspection of two-dimensional periodic structures. Optica Acta: Int. J. Opt., 24, 505-515(1977).

[13] J. Wang. Orbital angular momentum communications based on standard multi-mode fiber. APL Photonics, 6, 060804(2021).

[14] N. Zhou et al. Ultra-compact broadband polarization diversity orbital angular momentum generator with 3.6×3.6 μm2 footprint. Sci. Adv., 5, eaau9593(2019). https://doi.org/10.1126/sciadv.aau9593

[15] J. Wang et al. Orbital angular momentum and beyond in free-space optical communications. Nanophotonics, 11, 645-680(2022).

[16] J. Wang, Y. Liang. Generation and detection of structured light: a review. Front. Phys., 9, 688284(2021).

[17] J. Ye, H. Schnatz, L. W. Hollberg. Optical frequency combs: from frequency metrology to optical phase control. IEEE J. Sel. Top. Quantum Electron., 9, 1041-1058(2003).

[18] M. Zhang et al. Broadband electro-optic frequency comb generation in a lithium niobate microring resonator. Nature, 568, 373-377(2019).

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