| Contact principal : | Fabien Bretenaker |  |
| Autres contacts : | Fabienne Goldfarb | |
Description des activités de recherche :
Our research deals with the fields of laser physics, quantum optics, coherent matter-wave interaction, nonlinear optics, and microwave photonics. Our scientific goals address both fundamental and applied problems. More precisely, our present projects include :
- Coherent processes in metastable helium
This activity deals with the fine understanding of quantum phenomena occurring in three- and four-level atomic systems coupled with light, and their consequences on the control of the group velocity of light (slow light, fast light, negative group velocity light). This also includes the application of these concepts to optical sensors based on optical cavities and to quantum information processes (quantum memories, etc.). - Low noise lasers for microwave photonics
We develop low noise lasers (solid-state or semiconductor lasers) for the generation and/or distribution of optically carried RF signals. This includes fundamental studies on laser noise, development of two-frequency lasers, development of original servo-locking techniques, etc. - Phase sensitive amplification of optically carried RF signals
We develop phase sensitive amplifiers based on optical parametric amplification in nonlinear optical fibers. The ultimate goal is to build noiseless amplifiers, with a quantum limited noise figure below 3 dB, for microwave photonics applications (distribution of RF local oscillators or radar signals, electronic warfare, radio over fiber, etc.). - Development of coherent sources (optical parametric oscillators, lasers, etc.)
We develop optical parametric amplifiers and new lasers (based on crystals or glasses) for the generation of narrow linewidth tunable radiation in the visible and the infrared. This research is triggered by applications in the domains of quantum information processing and remote sensing. - Nonlinear Optics and Development of Laser Sources Optical Parametric Oscillators
We develop optical parametric amplifiers and new lasers (based on crystals or glasses) for the generation of narrow linewidth tunable radiation in the visible and the infrared. This research is triggered by applications in the domains of quantum information processing and remote sensing.
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