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Crossover from exciton polarons to trions in doped two-dimensional semiconductors at finite temperature
arXiv
Authors: A. Tiene, B. C. Mulkerin, J. Levinsen, M. M. Parish, F. M. Marchetti
Year
2022
Paper ID
14185
Status
Preprint
Abstract Read
~2 min
Abstract Words
169
Citations
N/A
Abstract
We study systematically the role of temperature in the optical response of doped two-dimensional semiconductors. By making use of a finite-temperature Fermi-polaron theory, we reveal a crossover from a quantum-degenerate regime with well-defined polaron quasiparticles to an incoherent regime at high temperature or low doping where the lowest energy "attractive" polaron quasiparticle is destroyed, becoming subsumed into a broad trion-hole continuum. We demonstrate that the crossover is accompanied by significant qualitative changes in both absorption and photoluminescence. In particular, with increasing temperature (or decreasing doping), the emission profile of the attractive branch evolves from a symmetric Lorentzian to an asymmetric peak with an exponential tail involving trions and recoil electrons at finite momentum. We discuss the effect of temperature on the coupling to light for structures embedded into a microcavity, and we show that there can exist well-defined polariton quasiparticles even when the exciton-polaron quasiparticle has been destroyed, where the transition from weak to strong light-matter coupling can be explained in terms of the polaron linewidths and spectral weights.
Why This Paper Matters
- It adds a 2022 reference point for readers tracking recent quantum research.
- We study systematically the role of temperature in the optical response of doped two-dimensional semiconductors.
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