Theory of Fiber Optic Raman Polarizers

Victor V. Kozlov; Javier Nuno; Juan Diego Ania-Castanon; and Stefan; Wabnitz

arXiv:1009.1079·physics.optics·May 19, 2015

Theory of Fiber Optic Raman Polarizers

Victor V. Kozlov, Javier Nuno, Juan Diego Ania-Castanon, and Stefan, Wabnitz

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TL;DR

This paper presents a theoretical model for fiber optic Raman polarizers, which are Raman amplifiers that produce highly polarized light from unpolarized input, enhancing control over light polarization in fiber optics.

Contribution

It introduces a vector model for Raman amplifiers in randomly birefringent fibers and applies it to characterize Raman polarizers, a novel type of polarization control device.

Findings

01

The model accurately describes the polarization properties of Raman polarizers.

02

Raman polarizers can produce highly polarized output from unpolarized input.

03

Theoretical framework aids in designing fiber optic polarization devices.

Abstract

The theoretical description of a Raman amplifier based on the vector model of randomly birefringent fibers is proposed and applied to the characterization of Raman polarizers. The Raman polarizer is a special type of Raman amplifier with the property of producing a highly repolarized beam when fed by relatively weak and unpolarized light.

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