Multi-line fiber laser system for cesium and rubidium atom interferometry

The source meets the usual requirements for atom interferometry (Fig. 1) : separate optical outputs for MOT and Raman lasers with powers of the order of 200 mW, frequency agility

To determine the focusing properties of the suggested atomic lens in the case of an atomic beam propagating opposite to the laser beam, it is first of all necessary to establi~h

Perturbations of the medium- to long-term clock stability, due to variations in the laser-intensity, laser frequency, the microwave power shift, and the shifts due to

This method is similar to the method used to evaluate the effect of the photodetector noise (A) and the microwave PM noise (B). It consists of adding frequency noise to the laser

My task was to construct a fully operational atomic beam source and then to evaluate the linewidth of the spin-forbidden 4s 1 S → 4p 3 P 1 atomic transition, probing the effusive beam

In Section 6 we describe a second setup in progress using intra-cavity doubling that has the potential to deliver similar output power at 671 nm while offering higher simplicity of

We demon- strate the preparation of long-lived circular Rydberg levels of laser-cooled Rubidium atoms in a cryostat.. We observe a 3.7 ms lifetime for the circular level of

The best result was obtained with a pyrro- methene 567-doped sample with a concentration of 5.5 3 10 24 mol@l in the initial sol: pulses of 3 mJ energy issued from the cavity when