Ultra-High Efficiency Magnetic Transport of SZRb Atoms in a Single Chamber Bose-Einstein Condensation Apparatus

We report the ultra-high efficiency transport of cold ST Ftb atoms using a moving magnetic quadrupole potential generated by three overlapping pairs of fixed coils. The transfer etticiency is better than 97%, which is the highest ever reported to our knowledge. The temperature increase due to heatin...

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Veröffentlicht in:	中国物理快报：英文版 2014 (6), p.90-93
1. Verfasser:	高奎意罗鑫宇贾凤东余承徽张峰殷冀平徐林尤力王如泉
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Sprache:	eng
Schlagworte:	Rb原子单室温度上升爱因斯坦凝聚玻色超高效运输高分辨率
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creator	高奎意罗鑫宇贾凤东余承徽张峰殷冀平徐林尤力王如泉
description	We report the ultra-high efficiency transport of cold ST Ftb atoms using a moving magnetic quadrupole potential generated by three overlapping pairs of fixed coils. The transfer etticiency is better than 97%, which is the highest ever reported to our knowledge. The temperature increase due to heating is less than IO #K when the initial cloud temperature is llO#K. Our setup is similar to the magnetic transferring belt design [Phys. ftev. A 63 （2001）031401（R）], although it is simpler because the push coil is not required. We use it to transport atoms away from a magneto-optical trap to very close to the wall of the glass cell, facilitating future experiments employing three-dimensional optical lattices, high resolution in-situ imaging, and magnetic Feshbach resonances.
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source	IOP Publishing Journals; Institute of Physics (IOP) Journals - HEAL-Link
subjects	Rb原子单室温度上升爱因斯坦凝聚玻色超高效运输高分辨率
title	Ultra-High Efficiency Magnetic Transport of SZRb Atoms in a Single Chamber Bose-Einstein Condensation Apparatus
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