Characterization of the Collimation of an Atomic Beam with a Monochromatic Quasi-resonant Laser

Characterization of the Collimation of an Atomic Beam with a Monochromatic Quasi-resonant Laser

In this article, we measure the collimation of an atomic beam of strontium that emerges from an array of microtubes installed at the output of an atomic oven, through the characterization of the beam fluorescence caused by a monochromatic laser beam close to resonance with a strontium electronic tra...

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Bibliographic Details
Published in:Brazilian journal of physics Vol. 51; no. 3; pp. 329 - 338
Main Authors: Dias, P. G. S., Biscassi, M. A. F., Magnani, P. H. N., Shiozaki, R. F., Courteille, Ph. W., Teixeira, R. Celistrino
Format: Journal Article
Language:English
Published: New York Springer US 01-06-2021
Springer Nature B.V
Subjects:
Atomic beams
Atomic Physics
Collimation
Fluorescence
Laser beams
Lasers
Physics
Physics and Astronomy
Strontium
Atomic physics
Atomic fluorescence
Atomic beam
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Summary:In this article, we measure the collimation of an atomic beam of strontium that emerges from an array of microtubes installed at the output of an atomic oven, through the characterization of the beam fluorescence caused by a monochromatic laser beam close to resonance with a strontium electronic transition, as a function of the transverse position at the atomic beam and the light detuning. We develop a theoretical model to obtain the total fluorescence rate as a function of the collimation of the atomic beam, the temperature of the atomic oven, and the laser frequency. Collision effects between the atoms, and the atoms with the recipient walls, are included to make the model realistic. The method and theory developed are useful to laboratories willing to implement such atomic sources, for experiments with atomic beams or cold atomic samples.
ISSN:0103-9733
1678-4448
DOI:10.1007/s13538-020-00837-9