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Towards a deterministic source of cold atoms

Conference Digest. 2000 International Quantum Electronics Conference (Cat. No.00TH8504) Pub Date : 2000-09-10 DOI:10.1109/IQEC.2000.908140
D. Frese, B. Ueberholz, S. Kuhr, W. Alt, D. Schrader, V. Comer, D. Meschede
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引用次数: 4

Abstract

The interest in optical dipole traps as an elegant and simple way to store laser-cooled neutral atoms has rapidly increased. Far-off-resonance optical dipole traps can confine atoms in all ground states for a long time with a very small ground state relaxation time. In contrast to previous work, the magneto-optical trap presented here describes experiments performed with a few atoms, with the atom number ranging from 1 to 10. The precise control of a deterministic number of atoms is crucial in many experiments, e.g. in cavity QED and quantum information processing.
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走向冷原子的确定性来源
作为一种优雅而简单的储存激光冷却中性原子的方法,人们对光学偶极子阱的兴趣迅速增加。远共振光学偶极子阱能以极小的基态弛豫时间将原子长时间限制在所有基态。与以前的工作相反,这里提出的磁光阱描述了用几个原子进行的实验,原子序数从1到10不等。原子数量的精确控制在许多实验中是至关重要的,例如在腔QED和量子信息处理中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Conference Digest. 2000 International Quantum Electronics Conference (Cat. No.00TH8504)
Conference Digest. 2000 International Quantum Electronics Conference (Cat. No.00TH8504)
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