Transport and localization of light inside a dye-filled microcavity

Abstract: The driven-dissipative nature of light-matter interaction inside a multimode, dye-filled microcavity makes it an ideal system to study nonequilibrium phenomena, such as transport. In this work, we investigate how light is efficiently transported inside such a microcavity, mediated by incoherent absorption and emission processes. In particular, we show that there exist two distinct regimes of transport, viz. conductive and localized, arising from the complex interplay between the thermalizing effect of the dye … Show more

“…Likewise, it is possible that modifications of the Kirton-Keeling model could be made to represent doped-glasses used for lasers, semiconductors, materials with opticalnonlinearities, or even gaseous media. A variety of non-equilibrium phenomena can be studied including fluctuations near criticality [19], transport [25] or emission of quantum-correlated light.…”

Phase transitions of light in a dye-filled microcavity: observations and simulations

“…Likewise, it is possible that modifications of the Kirton-Keeling model could be made to represent doped-glasses used for lasers, semiconductors, materials with opticalnonlinearities, or even gaseous media. A variety of non-equilibrium phenomena can be studied including fluctuations near criticality [19], transport [25] or emission of quantum-correlated light.…”

Phase transitions of light in a dye-filled microcavity: observations and simulations