BAUDOUIN , Quentin

The matter-light interaction in opaque media gives rise to collective effects which may be explained by the coupling between atomic equations and light transfer equation. The trapping of light in an opaque multi-levels atomic system will be studied experimentally in a cold vapour and theoritically. Then, this vapour will be in situation with...

Atomic physics experiments, based on hot vapors or laser-cooled atomic samples, may be useful to simulate some astrophysical problems, where radiation pressure, radiative transport or light amplification are involved. We discuss several experiments and proposals, dealing with multiple-scattering of light in hot and cold atomic vapors, random...

Atomic physics experiments, based on hot vapors or laser-cooled atomic samples, may be useful to simulate some astrophysical problems, where radiation pressure, radiative transport or light amplification are involved. We discuss several experiments and proposals, dealing with multiple-scattering of light in hot and cold atomic vapors, random...

In conventional lasers optical cavities are used to provide feedback to gain media. Mirrorless lasers can be built by using disordered structures to induce multiple scattering, which increases the path length in the medium, providing the necessary feedback. Interestingly, light or microwave amplification by stimulated emission also occurs...