The laboratory of condensed matter physics (LPMC) is a joint research unit (UMR 7336) headed by the University of Nice - Sophia Antipolis and the CNRS.

It is associated with two CNRS institutes, namely the INstitute of Physics (main association) and the INstitute of Engineering and System Sciences (secondary association).

The research programs depend on sections 05 and 08 of the National Committee of Scientific Research, and on sections 28, 30 and 63 of the National Council of the Universities.

Research activities thematics

Last submissions on HAL

Contribution domains

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Evolution

Mots clé

Cristallisation Radiation Single-mode fibre Silica Nonlinear optics Dosimetry Guided-wave Optics École maternelle Atomic force microscopy Erbium Defects Solitons Cold Atoms Crystallization Quantum optics Microwave experiments Colloidal suspensions Magnetorheology Ti3SiC2 Dynamics of nonlinear optical systems Quantum Communication Science-fiction Optical waveguides Thulium Quantum communication Leakage loss And optical spatio-temporal dynamics Artificial graphene Waveguides Reverberation chamber Quantum information Optical fibers Démarche d'investigation Diffusion multiple Electronic interactions Rhéologie Birefringence Electrorheology Cavitation Wave chaos Open systems Thermoluminescence Fibers Tight-binding model Optical fiber Elasticity Fibres optiques Integrated optics Modelling Ytterbium Quantum chaos Phase transition Proton exchange Nanoparticles Bending loss Composites Nanoparticules Communication quantique Fibre optique Large-mode-area-fibre Yield stress Spectroscopy Citoyenneté Hydrogel Magnetic separation Jamming Random matrix theory École primaire Robert Heinlein Discontinuous shear thickening Polarization Entanglement Microstructure Intrication Entanglement Adsorption Luminescence Magnetic fluids Irradiation Fluorescence Kinetics Microwave cavity Chaos ondulatoire Confinement loss Nature de la science Microfabrication Optical fibres Optique intégrée AlN Integrated Optics Nonlinear Optics Lithium niobate Propagation Quantum Optics Cladding pumping Diffusion Brillouin stimulée Absorption Rheology Suspensions Fiber lasers Silice