index - Laboratoire de physique de la matière condensée Access content directly
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

Contribution domains



Mots clé

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