Realizing arbitrary trapping potentials for light via direct laser writing of mirror surface profiles

The versatility of quantum gas experiments greatly benefits from the ability to apply variable potentials. Here we describe a method which allows the preparation of potential structures for microcavity photons via spatially selective deformation of optical resonator geometries with a heat-induced mi...

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Veröffentlicht in:	Europhysics letters 2020-06, Vol.130 (5), p.54001
Hauptverfasser:	Kurtscheid, Christian, Dung, David, Redmann, Andreas, Busley, Erik, Klaers, Jan, Vewinger, Frank, Schmitt, Julian, Weitz, Martin
Format:	Artikel
Sprache:	eng
Schlagworte:	Bose-Einstein condensates Direct laser writing Optical resonators Photons Thermalization (energy absorption)
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creator	Kurtscheid, Christian Dung, David Redmann, Andreas Busley, Erik Klaers, Jan Vewinger, Frank Schmitt, Julian Weitz, Martin
description	The versatility of quantum gas experiments greatly benefits from the ability to apply variable potentials. Here we describe a method which allows the preparation of potential structures for microcavity photons via spatially selective deformation of optical resonator geometries with a heat-induced mirror surface microstructuring technique. We investigate the thermalization of a two-dimensional photon gas in a dye-filled microcavity composed of the custom surface-structured mirrors at wavelength-scale separation. Specifically, we describe measurements of the spatial redistribution of thermal photons in a coupled double-ridge structure, where photons form a Bose-Einstein condensate in a spatially split ground state, as a function of different pumping geometries.
doi_str_mv	10.1209/0295-5075/130/54001
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subjects	Bose-Einstein condensates Direct laser writing Optical resonators Photons Thermalization (energy absorption)
title	Realizing arbitrary trapping potentials for light via direct laser writing of mirror surface profiles
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