Laboratoire Charles Coulomb UMR 5221 CNRS/UM2 (L2C)


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Théorie du Rayonnement-Matière et Phénomènes Quantiques

The "Theory of light-matter and quantum phenomena" (RMPQ) group has been founded to promote theoretical studies on elementary and collective quantum effects, at the crossroads between light-matter physics, condensed matter, and ultra-cold quantum gases.

RMPQ is the theory group of the "PEPS division".

Group activities are developed in close collaboration with several national and international experimental groups, and are motivated by both fundamental and applicative challenges in quantum physics.

Main group research activities, conducted by means of analytical and advanced numerical tools in theoretical physics, are :

  • non-equilibrium dynamics in quantum physics (Casimir-Lifshiz interaction, heat transfer, fluctuations-dissipation theorems, entanglement, light-harvesting complexes, quantum thermal machines)

  • light and energy transport properties in periodic or disordered quantum complex systems (ultra cold quantum gases, quantum dots, photonics crystals, artificial atomic crystals, graphene)

  • few and many-body quantum physics (Bose-Einstein condensation, collective oscillations, solitons, and quantum vortices in Bose and Fermi atomic gases, polaritons in semiconductors)

  • plasmonics and nanophotonics (graphene, gratings, numerical electromagnetism)

For more informations on the group research click here.

From left to right : David Cassagne, Bruno Leggio, Hamis Gargoubi, Riccardo Messina, Brahim Guizal, Mauro Antezza, Pierre Doyeux

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Dernières publications

+ Radiative heat transfer between metallic nanoparticle clusters in both near field and far field doi link

Auteur(s): Luo Minggang, Dong Jian, Zhao Junming, Liu Linhua, Antezza M.

(Article) Publié: Physical Review B, vol. 99 p.134207 (2019)
Texte intégral en Openaccess : arxiv

+ Non-Markovian transient Casimir-Polder force and population dynamics on excited- and ground-state atoms: Weak- and strong-coupling regimes in generally nonreciprocal environments doi link

Auteur(s): Hanson George w., Hassani gangaraj S. ali, Silveirinha Mario, Antezza M., Monticone Francesco

(Article) Publié: Physical Review A: Atomic, Molecular And Optical Physics, vol. 99 p.042508 (2019)

+ Coupling between subwavelength nano-slits lattice modes and metal-insulator-graphene cavity modes: A semi-analytical model doi link

Auteur(s): Edee Kofi, Benrhouma Maha, Antezza M., Fan Jonathan albert, Guizal B.

(Article) Publié: Osa Continuum, vol. 2 p.1296-1309 (2019)