Abstract

A flexible first-order OAM modes generation in ring-core fibers (RCFs) based on a mechanically-induced long-period fiber grating (MLPFG) is proposed. By directly fusion splicing a standard single-mode fiber (SMF) and RCFs, the anti-resonant reflection guidance mechanism (ARRGM) is introduced in the RCF, leading to the guided-core modes, so-called anti-resonant modes (AR modes), which have a Gaussian field distribution and are confined in low-refractive index central core of RCFs. A mechanical long-period fiber grating is used to couple the AR modes into the OAM modes propagated in the high-index ring core of the RCF. Results show that the generated OAM modes are the combination of two orthogonal linearly polarized (LP) modes with &#x00B1;&#x03C0;&#x002F;2 phase shift in the ring core. The mode conversion efficiency of OAM<sub>&#x002B;1</sub> and OAM<sub>&#x2212;1</sub> can reach 95&#x0025; and 94&#x0025;, respectively, indicating promising applications in sensing and communication of the RCFs.

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