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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

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Contribution domains


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Mots clé

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