Electron-exciton interactions in the exciton-polaron problem

Abstract: Recently, it has been demonstrated that the absorption of moderately doped two-dimensional semiconductors can be described in terms of exciton-polarons. In this scenario, attractive and repulsive polaron branches are formed due to interactions between a photo-excited exciton and a Fermi sea of excess charge carriers. These interactions have previously been treated in a phenomenological manner. Here, we present a microscopic derivation of the electron-exciton interactions which utilizes a mixture of variational… Show more

“…The large binding energy of excitons in TMDs as compared to other microcavity semiconductors like quantumwells [32][33][34], combined with the possibility to control the electron density in the different valleys, opens up exciting new venues to explore Bose-Fermi mixtures in a hybrid light-matter setting [35][36][37]. This has stimulated a number of studies regarding the properties electron-exciton mixtures and their coupling to light [38][39][40][41][42][43][44][45][46][47][48]. In particular, the emergence of new quasiparticles, the so-called Fermi-polaron-polaritons have been observed [49].…”

Polaritons in an electron gas -- quasiparticles and Landau effective interactions

“…The large binding energy of excitons in TMDs as compared to other microcavity semiconductors like quantumwells [32][33][34], combined with the possibility to control the electron density in the different valleys, opens up exciting new venues to explore Bose-Fermi mixtures in a hybrid light-matter setting [35][36][37]. This has stimulated a number of studies regarding the properties electron-exciton mixtures and their coupling to light [38][39][40][41][42][43][44][45][46][47][48]. In particular, the emergence of new quasiparticles, the so-called Fermi-polaron-polaritons have been observed [49].…”

Polaritons in an electron gas -- quasiparticles and Landau effective interactions