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arxiv: 2103.14040 · v2 · pith:EU5IZJILnew · submitted 2021-03-25 · ❄️ cond-mat.mes-hall · cond-mat.quant-gas· quant-ph

Fermi polaron laser in two-dimensional semiconductors

classification ❄️ cond-mat.mes-hall cond-mat.quant-gasquant-ph
keywords momentumpolaronsaroundattractiveedgeelectronsexcitonexcitons
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We study the relaxation dynamics of driven, two-dimensional semiconductors, where itinerant electrons dress optically pumped excitons to form two Fermi-polaron branches. Repulsive polarons excited around zero momentum quickly decay to the attractive branch at high momentum. Collisions with electrons subsequently lead to a slower relaxation of attractive polarons, which accumulate at the edge of the light-cone around zero momentum where the radiative loss dominates. The bosonic nature of exciton polarons enables stimulated scattering, which results in a lasing transition at higher pump power. The latter is characterized by a superlinear increase of light emission as well as extended spatiotemporal coherence. As the coherent peak is at the edge of the light-cone and not at the center, the many-body dressing of excitons can reduce the linewidth below the limit set by the exciton nonradiative lifetime.

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