Компьютерная оптика (Oct 2022)

Structured light transformations and orbital angular momentum control in a three-coil optical snake

  • C.N. Alexeyev,
  • S.S. Aliyeva,
  • E.V. Barshak,
  • B.P. Lapin,
  • M.A. Yavorsrky

DOI
https://doi.org/10.18287/2412-6179-CO-1121
Journal volume & issue
Vol. 46, no. 5
pp. 701 – 712

Abstract

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In this paper, we studied transformations of structured light and its angular momentum in a three-coil optical snake – a coil resonator composed of 3 evanescently uniformly coupled coils of a multimode fiber. We have suggested a fully vectorial theory of normal modes of the 3-coil resona-tor, which takes account of the spin-orbit interaction. On the basis of the analytical expressions for such normal modes and their propagation constants we have studied transmission of some types of structured light beams – optical vortices, Hermite-Gaussian-like and Laguerre-Gaussian beams – through such a system. We have shown the possibility of a super-efficient parametric control over the topological charge, orbital and spin angular momenta of the outcoming optical field by this system. We have theoretically demonstrated implementation of logic X and Y Pauli gates for light beams carrying orbital angular momentum on the basis of such a 3-coil resonator.

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