Artificial gravitation effect on spin-polarized exciton-polaritons

TL;DR

This paper theoretically investigates how an artificial gravitational force, created by cavity width variation, influences the spin-polarization dynamics of exciton-polaritons, demonstrating polarization switching and interference pattern formation.

Contribution

It introduces a semi-classical model for spin-polarized exciton-polaritons under artificial gravity and magnetic fields, revealing polarization attractors and interference effects.

Findings

Polariton polarization can be switched via magnetic field and initial conditions.

Artificial gravity causes polariton polarization to tend toward an attractor.

Interference patterns similar to cylindrical and plane waves are observed.

Abstract

The pseudospin dynamics of long-living exciton-polaritons in a wedged 2D cavity has been studied theoretically accounting for the external magnetic field effect. The cavity width variation plays the role of the artificial gravitational force acting on a massive particle: exciton-polariton. A semi-classical model of the spin-polarization dynamics of ballistically propagating exciton-polaritons has been developed. It has been shown that for the specific choise of the magnetic field magnitude and the initial polariton wave vector the polariton polarization vector tends to an attractor on the Poincare sphere. Based on this effect, the switching the polariton polarization in the ballistic regime has been demonstrated. The self-interference of the polariton field emitted by a point-like source has been shown to induce the formation of interference patterns reminiscent of the interference patterns of cylindrical and plane waves.