Trapping of ultra cold atoms in a 3He/4He dilution refrigerator

We describe the preparation of ultra cold atomic clouds in a dilution refrigerator. The closed cycle 3He/4He cryostat was custom made to provide optical access for laser cooling, optical manipulation and detection of atoms. We show that the cryostat meets the requirements for cold atom experiments,...

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Veröffentlicht in:	arXiv.org 2013-09
Hauptverfasser:	Jessen, F, Knufinke, M, Bell, S C, Vergien, P, Hattermann, H, Weiss, P, Rudolph, M, Reinschmidt, M, Meyer, K, Gaber, T, Cano, D, Guenther, A, Bernon, S, Koelle, D, Kleiner, R, tagh, J
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Sprache:	eng
Schlagworte:	Cold Cold traps Dilution High vacuum Hybrid systems Laser cooling Matter & antimatter Physics - Atomic Physics Ultracold atoms
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creator	Jessen, F Knufinke, M Bell, S C Vergien, P Hattermann, H Weiss, P Rudolph, M Reinschmidt, M Meyer, K Gaber, T Cano, D Guenther, A Bernon, S Koelle, D Kleiner, R tagh, J
description	We describe the preparation of ultra cold atomic clouds in a dilution refrigerator. The closed cycle 3He/4He cryostat was custom made to provide optical access for laser cooling, optical manipulation and detection of atoms. We show that the cryostat meets the requirements for cold atom experiments, specifically in terms of operating a magneto-optical trap, magnetic traps and magnetic transport under ultra high vacuum conditions. The presented system is a step towards the creation of a quantum hybrid system combining ultra cold atoms and solid state quantum devices.
doi_str_mv	10.48550/arxiv.1309.2548
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subjects	Cold Cold traps Dilution High vacuum Hybrid systems Laser cooling Matter & antimatter Physics - Atomic Physics Ultracold atoms
title	Trapping of ultra cold atoms in a 3He/4He dilution refrigerator
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