Related papers: Effect of magnetic field on the Bose-Einstein condensation of quantum well exciton-polaritons

Effect of magnetic field on the Bose-Einstein condensation of quantum well exciton-polaritons

URL: http://arxiv.org/abs/2404.00970v3
Date: Fri, 13 Sep 2024 14:34:10 GMT
Title: Effect of magnetic field on the Bose-Einstein condensation of quantum well exciton-polaritons
Authors: Nguyen Dung Chinh, Le Tri Dat, Vinh N. T. Pham, Tran Duong Anh-Tai, Vo Quoc Phong, Nguyen Duy Vy,
Abstract summary: We investigate the effects of a magnetic field on the relaxation process of exciton-polaritons toward Bose-Einstein condensation in GaAs quantum wells. Our study reveals that the modification of the exciton's effective mass, Rabi splitting, and dispersion significantly alters the relaxation rate of polaritons as they approach condensation.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: We theoretically investigate the nonlinear effects of a magnetic field on the relaxation process of exciton-polaritons toward Bose-Einstein condensation in GaAs quantum wells. Our study reveals that the modification of the exciton's effective mass, Rabi splitting, and dispersion significantly alters the relaxation rate of polaritons as they approach condensation. By employing a quasi-stationary pump, we clarify the dynamics of the total and condensed polariton populations in response to varying magnetic field strengths. Notably, we demonstrate that under low-energy pumping conditions, the presence of a magnetic field significantly suppresses condensation. This suppression is attributed to the decreased scattering rate between energy levels, which is a consequence of the reduced steepness in the high-energy dispersion. Conversely, increasing both the pump energy and the magnetic field can enhance relaxation efficiency, leading to a substantially larger number of condensed polaritons.

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