The insertion of a light emitting layer into a cavity between two mirrors modifies its emission properties. In a cavity of very high quality factor, the strong coupling between photons and excitons gives rise to the formation of new quasi-particles called cavity polaritons, half light / half material. A particularly interesting property of these polaritons is their bosonic nature, which allows them to accumulate in the same state. For the moment, most of the work on polaritons concerns fundamental aspects (Bose-Einstein condensation (BEC), superfluidity, topological defects, etc.). From a more applied point of view, we can of course exploit the optical emission of these polariton condensates to produce coherent light sources, quite similar to vertical surface emission lasers (VCSELs). The major difference between these two types of lasers lies in the physical mechanism underlying the laser effect: while the VCSEL exploits the population inversion in the gain medium, the polariton laser is based on the bosonic condensation, that is polariton relaxation stimulated by the occupation of the final state.

Most of the previous experiments were conducted at low temperatures because, even though strong coupling can be achieved up to room temperature in GaAs and CdTe systems, their low excitonic stability greatly limits their applications at ambient temperature and / or high density. of particles. To remedy this, we need to develop materials with high excitonic bonding strength, such as GaN and ZnO, which are the materials of choice at CRHEA.

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Représentation schématique d'une microcavité totalement hybride à base de ZnO
Figure 1 : Schematic representation of a totally microcavity hybrid based on ZnO (a), which shows the polariton laser phenomenon up to room temperature, as shown by the observation of a threshold non-linear emission (b) at energies remote from the mode energy bare cavity (c)
Recent publications

⋄ Lasing in a ZnO waveguide: clear evidence of polaritonic gain obtained by monitoring the continuous exciton screening

Geoffrey Kreyder, Léa Hermet, Pierre Disseix, François Médard, Martine Mihailovic, François Réveret, Sophie Bouchoule, Christiane Deparis, Jesús Zuñiga-Pérez and Joël Leymarie
Phys. Rev. B, 107, 125307, (2023) - Papier régulier

⋄ Telecom single-photon emitters in GaN operating at room temperature: embedment into bullseye antennas

Max Meunier, John J. H. Eng, Zhao Mu, Sebastien Chenot, Virginie Brändli, Philippe de Mierry, Weibo Gao and Jesús Zúñiga-Pérez
Nanophotonics, 12 (8), 1405-1419, (2023) - Papier régulier