Platicon Stability in Hot Cavities

Valery E. Lobanov; Nikita M. Kondratiev; Artem E. Shitikov; Olga V.; Borovkova; Steevy J. Cordette; and Igor A. Bilenko

arXiv:2211.13459·physics.optics·May 10, 2023

Platicon Stability in Hot Cavities

Valery E. Lobanov, Nikita M. Kondratiev, Artem E. Shitikov, Olga V., Borovkova, Steevy J. Cordette, and Igor A. Bilenko

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TL;DR

This paper investigates the stability of platicons in hot optical cavities considering Kerr and thermal nonlinearities, revealing conditions under which different platicon types are stable.

Contribution

It provides a numerical analysis of platicon stability in hot cavities, highlighting the effects of thermal nonlinearity and pump parameters on stability regimes.

Findings

01

High-energy wide platicons are stable with positive thermal effects.

02

Narrow platicons are stabilized by negative thermal coefficients.

03

Stability depends on pump amplitude, thermal nonlinearity, and relaxation time.

Abstract

The stability of platicons in hot cavities with normal group velocity at the interplay of Kerr and thermal nonlinearities was addressed numerically. The stability analysis was performed for different ranges of pump amplitude, thermal nonlinearity coefficient and thermal relaxation time. It was revealed that for the positive thermal effect, the high-energy wide platicons are stable, while the negative thermal coefficient provides the stability of narrow platicons.

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Taxonomy

TopicsPhotonic and Optical Devices · Semiconductor Quantum Structures and Devices · Mechanical and Optical Resonators