Chaos and Regularity in Semiconductor Microcavities

TL;DR

This paper investigates the complex nonlinear dynamics in semiconductor microcavities with quantum wells, revealing routes to chaos and coexistence of periodic and chaotic states under external perturbations.

Contribution

It introduces a detailed analysis of chaos and regularity phenomena in microcavity semiconductor systems with external energy perturbations.

Findings

Observation of periodic-doubling, quasiperiodic, and chaotic routes to chaos.

Identification of riddled basins with coexisting periodic and chaotic motions.

External perturbations significantly influence exciton-photon dynamics.

Abstract

Our work presents a study on the nonlinear dynamical behavior for a microcavity semiconductor containing a quantum well. Using an external periodic perturbation in energy level we observe the periodic-doubling, quasiperiodic, and direct route to chaos as forcing strength is changed. For a particular case the riddled basin for coexisting periodic and chaotic motions are observed. These results suggest that the dynamics of exciton-photon is quite complex in presence of external perturbation.