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

We demonstrate that honeycomb arrays of microcavity pillars behave as an optical-
frequency two-dimensional photonic topological insulator. We show that the interplay …

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 …

We predict that the interplay between the spin-orbit coupling, stemming from the transverse
electric–transverse magnetic energy splitting, and the Zeeman effect in semiconductor …

We study the magnetophotoluminescence of an optically trapped exciton-polariton
condensate in a planar semiconductor microcavity with multiple In 0.08 Ga 0.92 As quantum …

What an exciton–polariton condensate is—or a polariton laser? Where the similarities and
differences between polariton and conventional lasers lie? How optical microcavities gave …

The dipole coupling strength g between cavity photons and quantum well excitons
determines the regime of light matter coupling in quantum well microcavities. In the strong …

Strong light matter coupling between excitons and microcavity photons, as described in the
framework of cavity quantum electrodynamics, leads to the hybridization of light and matter …

We investigate exciton-polariton condensation in a magnetic field in a single high-quality
semiconductor micropillar cavity. We observe successive polariton condensation of each …

Topological insulators are unique devices supporting unidirectional edge states at their
interfaces. Due to topological protection, such edge states persist in the presence of disorder …