A factor 1600 increase in neutral atomic beam intensity using laser cooling

Using a three-step transverse cooling scheme, a strongly diverging flow of metastable Ne*(/sup 3/P/sub 2/) atoms is compressed into a small diameter (3 mm), well-collimated (1 mrad) atomic beam, using only 200 mW total laser power. This extremely valuable technique for frequency standard application...

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Hauptverfasser:	Hoogerland, M.D., Driessen, J.P.J., Vredenbregt, E.J.D., Megens, H.J.L., Schuwer, M.P., Beijerinck, H.C.W., van Leeuwen, K.A.H.
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Sprache:	eng
Schlagworte:	Atom lasers Atom optics Atomic beams Collimators Cooling Laser beams Laser theory Laser transitions Lenses Physics
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creator	Hoogerland, M.D. Driessen, J.P.J. Vredenbregt, E.J.D. Megens, H.J.L. Schuwer, M.P. Beijerinck, H.C.W. van Leeuwen, K.A.H.
description	Using a three-step transverse cooling scheme, a strongly diverging flow of metastable Ne*(/sup 3/P/sub 2/) atoms is compressed into a small diameter (3 mm), well-collimated (1 mrad) atomic beam, using only 200 mW total laser power. This extremely valuable technique for frequency standard applications is applicable to many different atomic systems.< >
doi_str_mv	10.1109/FREQ.1994.398267
format	Conference Proceeding
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subjects	Atom lasers Atom optics Atomic beams Collimators Cooling Laser beams Laser theory Laser transitions Lenses Physics
title	A factor 1600 increase in neutral atomic beam intensity using laser cooling
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