Skip to Main content Skip to Navigation
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

Chargement de la page

Contribution domains



Mots clé

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