The coherent exchange of energy between materials and optical fields leads to strong light–
matter interactions and so-called polaritonic states with intriguing properties, halfway …

Abstract The study of Bose–Einstein condensation effects in photonic systems has revealed
a rich phenomenology related to spontaneous coherence generation in driven-dissipative …

The recent progress in nanotechnology, and single-molecule spectroscopy,–paves the way
for emergent cost-effective organic quantum optical technologies with potential applications …

Revealing universal behaviours is a hallmark of statistical physics. Phenomena such as the
stochastic growth of crystalline surfaces and of interfaces in bacterial colonies, and spin …

Bose–Einstein condensation describes the macroscopic occupation of a single-particle
mode: the condensate. This state can in principle be realized for any particles obeying Bose …

Interacting Bosons in artificial lattices have emerged as a modern platform to explore
collective manybody phenomena and exotic phases of matter as well as to enable advanced …

Exciton‐polaritons are half‐light, half‐matter bosonic quasiparticles formed by strong exciton–
photon coupling in semiconductor microcavities. These hybrid particles possess the strong …

We propose a novel mechanism for a nonequilibrium phase transition in a U (1)-broken
phase of an electron-hole-photon system, from a Bose-Einstein condensate of polaritons to …

Universality is a powerful concept, which enables making qualitative and quantitative
predictions in systems with extensively many degrees of freedom. It finds realizations in …

Organic semiconductor materials are widely studied for light emission and lasing due to their
ability to tune the emission wavelength through chemical structural modification and their …