Excitons in atomically thin crystals couple strongly with light. Here, the authors observe lattice polaritons in a tunable open optical cavity at room temperature, with an imprinted photonic lattice strongly coupled to excitons in a WS2 monolayer
Hybrid light-matter states-polaritons-have attracted considerable scientific interest recently, moti...
Strong optical nonlinearities play a central role in realizing quantum photonic technologies. Excito...
Optically induced Mie resonances in dielectric nanoantennas feature low dissipative losses and a lar...
Two-dimensional transition metal dichalcogenides exhibit strong optical transitions with significant...
We report on experimental evidence of strong coupling between excitons confined in a quantum well an...
Exciton-polaritons are quasiparticles consisting of a linear superposition of photonic and excitonic...
Here, the authors show that the interaction between microcavity photons and excitons in an atomicall...
Monolayer transition metal dichalcogenide crystals (TMDCs) hold great promise for semiconductor opto...
Solid state cavity quantum electrodynamics is a rapidly advancing field which explores the frontiers...
In this Rapid Communication, we address the chiral properties of valley exciton-polaritons in a mono...
Monolayers of transition-metal dicalcogenides have emerged as two-dimensional semiconductors with di...
Solid-state cavity quantum electrodynamics is a rapidly advancing field, which explores the frontier...
Monolayer transition-metal dichalcogenide (TMD) materials have attracted a great attention because o...
Exciton-polaritons represent a promising platform for studying quantum fluids of light and realizing...
Atomically thin crystals of transition metal dichalcogenides (TMDs) host excitons with strong bindin...
Hybrid light-matter states-polaritons-have attracted considerable scientific interest recently, moti...
Strong optical nonlinearities play a central role in realizing quantum photonic technologies. Excito...
Optically induced Mie resonances in dielectric nanoantennas feature low dissipative losses and a lar...
Two-dimensional transition metal dichalcogenides exhibit strong optical transitions with significant...
We report on experimental evidence of strong coupling between excitons confined in a quantum well an...
Exciton-polaritons are quasiparticles consisting of a linear superposition of photonic and excitonic...
Here, the authors show that the interaction between microcavity photons and excitons in an atomicall...
Monolayer transition metal dichalcogenide crystals (TMDCs) hold great promise for semiconductor opto...
Solid state cavity quantum electrodynamics is a rapidly advancing field which explores the frontiers...
In this Rapid Communication, we address the chiral properties of valley exciton-polaritons in a mono...
Monolayers of transition-metal dicalcogenides have emerged as two-dimensional semiconductors with di...
Solid-state cavity quantum electrodynamics is a rapidly advancing field, which explores the frontier...
Monolayer transition-metal dichalcogenide (TMD) materials have attracted a great attention because o...
Exciton-polaritons represent a promising platform for studying quantum fluids of light and realizing...
Atomically thin crystals of transition metal dichalcogenides (TMDs) host excitons with strong bindin...
Hybrid light-matter states-polaritons-have attracted considerable scientific interest recently, moti...
Strong optical nonlinearities play a central role in realizing quantum photonic technologies. Excito...
Optically induced Mie resonances in dielectric nanoantennas feature low dissipative losses and a lar...