The Structure and Dispersion of Exciton-Trion-Polaritons in Two-Dimensional Materials: Experiments and Theory

Abstract: The nature of trions and their interaction with light has remained a puzzle. The composition and dispersion of polaritons involving trions provide insights into this puzzle. Trions and excitons in doped two-dimensional (2D) materials are not independent excitations but are strongly coupled as a result of Coulomb interactions. When excitons in doped 2D materials are also strongly coupled with light inside an optical waveguide, the resulting polariton states are coherent superpositions of exciton, trion, and pho… Show more

“…The oscillator strengths and linewidths of these different branches have consequences for the polariton spectrum found when there is strong matter-light coupling [4,[7][8][9][10]. We show how the system's spectral properties in the weak-coupling limit determine the polariton spectrum in strong coupling.…”

“…This leads to absorption peaks that, in the limit of vanishing doping, connect smoothly to the underlying exciton and trion few-body states. Exciton-polarons have recently generated significant interest since they have been used to interpret the absorption peaks of charge-doped two-dimensional (2D) semiconductors [4,[7][8][9][10].…”

Effect of fermion indistinguishability on optical absorption of doped two-dimensional semiconductors

“…The oscillator strengths and linewidths of these different branches have consequences for the polariton spectrum found when there is strong matter-light coupling [4,[7][8][9][10]. We show how the system's spectral properties in the weak-coupling limit determine the polariton spectrum in strong coupling.…”

“…This leads to absorption peaks that, in the limit of vanishing doping, connect smoothly to the underlying exciton and trion few-body states. Exciton-polarons have recently generated significant interest since they have been used to interpret the absorption peaks of charge-doped two-dimensional (2D) semiconductors [4,[7][8][9][10].…”

Effect of fermion indistinguishability on optical absorption of doped two-dimensional semiconductors