Bending of solitonic beams modelled by coupled KMN equation in optical   birefringent fibers

Abhik Mukherjee

arXiv:2110.13045·nlin.PS·October 26, 2021

Bending of solitonic beams modelled by coupled KMN equation in optical birefringent fibers

Abhik Mukherjee

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TL;DR

This paper models the bending behavior of (2+1)D optical solitonic beams in birefringent fibers using a coupled KMN equation, providing analytical insights into their dynamics and potential new research directions.

Contribution

It introduces a coupled KMN equation approach to analyze the bending of optical solitonic beams in birefringent fibers, which is a novel analytical framework.

Findings

01

Analytical description of solitonic beam bending.

02

Visualization through 2D and 3D plots.

03

Potential for new research avenues in optical fiber dynamics.

Abstract

The dynamics of (2 + 1) dimensional optical solitonic beams in birefringent fibers without four wave mixing terms are considered using the recently introduced coupled Kundu Mukherjee Naskar (KMN) equation. The arbitrary bending of solitonic beams in this coupled optical fiber system has been discussed with various two and three dimensional plots. Such analytical results on the bending of optical pulse may pave new directions of research in this field.

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Taxonomy

TopicsOptical Network Technologies · Advanced Fiber Laser Technologies · Photonic Crystal and Fiber Optics