Opto-Electronic Advances (Sep 2018)

Fiber-based mode converter for generating optical vortex beams

  • Chen Ruishan,
  • Wang Jinghao,
  • Zhang Xiaoqiang,
  • Yao Junna,
  • Ming Hai,
  • Wang Anting

DOI
https://doi.org/10.29026/oea.2018.180003
Journal volume & issue
Vol. 1, no. 7
pp. 180003-1 – 180003-7

Abstract

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In this work, an all-fiber-based mode converter for generating orbital angular momentum (OAM) beams is proposed and numerically investigated. Its structure is constructed by cascading a mode selective coupler (MSC) and an inner elliptical cladding fiber (IECF). OAM modes refer to a combination of two orthogonal LPlm modes with a phase difference of ±π/2. By adjusting the parameters and controlling the splicing angle of MSC and IECF appropriately, higher-order OAM modes with topological charges of l = ±1, ±2, ±3 can be obtained with the injection of the fundamental mode LP01, resulting in a mode-conversion efficiency of almost 100%. This achievement may pave the way towards the realization of a compact, all-fiber, and high-efficiency device for increasing the transmission capacity and spectral efficiency in optical communication systems with OAM mode multiplexing.

Keywords