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We propose a compact and robust laser system for onboard rubidium atomic interferometry usefull for atomic inertial sensors. Our system is based on the second harmonic generation of a telecom fiber bench at 1560 nm.
We propose a compact and reliable laser system for onboard atom interferometers using rubidium. Our system is based on the frequency doubling of a telecom fiber bench at 1560 nm.
In conclusion, we have developed a new laser system to laser cool rubidium atoms based on frequency doubling of a 1560 nm fiber bench. The use of telecom components gives us a reliable and compact system robust compare to environmental perturbations. Our laser system should find applications for onboard cold atoms experiments like inertial captors or atomic clocks. For example, our laser could be...
We propose a compact and robust laser system for onboard laser cooling experiments like atomic clocks or atomic inertial sensors. Our system is based on the frequency doubling of a fiber bench at 1560 nm.
A new laser system is developed to laser cool rubidium atoms based on frequency doubling of a 1560 nm fiber bench. The use of telecom components gives a reliable and compact system robust compare to environmental perturbations. The laser system is validated by realizing a rubidium magneto-optical trap and an optical molasses. The laser system should find applications for onboard cold atoms experiments...
We have realized a compact, 0.2 W continuous sub-MHz laser source at 780 nm from second harmonic generation inside a periodically poled LiNbO/sub 3/ crystal. The fiber system fulfill requirements for cooling and trapping Rubidium atoms.
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