Add to ORKGNational audienceThe beating frequency of 1.5 µm dual polarization DFB fiber lasers is shown to be stabilized at 1 GHz by means of an optical frequency-shifted feedback loop. It leads to an optically carried RF source with sub-Hz linewidth. The width of the locking range is proportional to the reinjection rate. Such dual-frequency stabilized laser could provide compact integrated components for RF and microwave photonics applications
International audienceWe show that the polarization modes of a dual-frequency fiber laser can be eff...
The frequency of a distributed feedback diode laser (DFB-LD) is stabilized on Cesium (Cs-133) D-2 sa...
International audienceWe report on an all-electrical locking of the optical frequency of a distribut...
International audienceThe beat frequency of 1.5 μm dual polarization DFB fiber lasers is shown to be...
International audienceFully fibered microwave-optical sources at 1.5 μm are studied experimentally. ...
International audienceThe beat frequency of 1.5 μm dual polarization DFB fiber lasers is shown to be...
International audienceA fully fibered microwave-optical source at 1.5 µm is studied experimentally. ...
International audienceFully fibered microwave-optical sources at 1.5 µm are studied experimentally. ...
International audienceFully fibered microwave-optical sources at 1.5 µm are studied experimentally. ...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceDual-frequency fiber lasers (DFFL) are shown to provide high purity beat notes...
We demonstrate the photonic generation of microwave signals by using a dual-frequency distributed fe...
We demonstrate the photonic generation of microwave signals by using a dual-frequency distributed fe...
International audienceWe show that the polarization modes of a dual-frequency fiber laser can be eff...
The frequency of a distributed feedback diode laser (DFB-LD) is stabilized on Cesium (Cs-133) D-2 sa...
International audienceWe report on an all-electrical locking of the optical frequency of a distribut...
International audienceThe beat frequency of 1.5 μm dual polarization DFB fiber lasers is shown to be...
International audienceFully fibered microwave-optical sources at 1.5 μm are studied experimentally. ...
International audienceThe beat frequency of 1.5 μm dual polarization DFB fiber lasers is shown to be...
International audienceA fully fibered microwave-optical source at 1.5 µm is studied experimentally. ...
International audienceFully fibered microwave-optical sources at 1.5 µm are studied experimentally. ...
International audienceFully fibered microwave-optical sources at 1.5 µm are studied experimentally. ...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceWe describe the stabilization of a dual-frequency laser on an external referen...
International audienceDual-frequency fiber lasers (DFFL) are shown to provide high purity beat notes...
We demonstrate the photonic generation of microwave signals by using a dual-frequency distributed fe...
We demonstrate the photonic generation of microwave signals by using a dual-frequency distributed fe...
International audienceWe show that the polarization modes of a dual-frequency fiber laser can be eff...
The frequency of a distributed feedback diode laser (DFB-LD) is stabilized on Cesium (Cs-133) D-2 sa...
International audienceWe report on an all-electrical locking of the optical frequency of a distribut...