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Compressibility and the equation of state of an optical quantum gas in a box

Erik Busley, Leon Espert Miranda, Andreas Redmann, Christian Kurtscheid, Kirankumar Karkihalli Umesh, Frank Vewinger, Martin Weitz, Julian Schmitt

2022Science33 citationsDOIOpen Access PDF

Abstract

The compressibility of a medium, quantifying its response to mechanical perturbations, is a fundamental property determined by the equation of state. For gases of material particles, studies of the mechanical response are well established, in fields from classical thermodynamics to cold atomic quantum gases. We demonstrate a measurement of the compressibility of a two-dimensional quantum gas of light in a box potential and obtain the equation of state for the optical medium. The experiment was carried out in a nanostructured dye-filled optical microcavity. We observed signatures of Bose-Einstein condensation at high phase-space densities in the finite-size system. Upon entering the quantum degenerate regime, the measured density response to an external force sharply increases, hinting at the peculiar prediction of an infinite compressibility of the deeply degenerate Bose gas.

Topics & Concepts

CompressibilityEquation of stateDegenerate energy levelsPhysicsBose gasCondensationQuantumFermi gasBose–Einstein condensateCompressibility factorQuantum mechanicsCondensed matter physicsThermodynamicsElectronStrong Light-Matter InteractionsCold Atom Physics and Bose-Einstein CondensatesAdvanced Thermodynamics and Statistical Mechanics