在磁光阱中对费米子汞同位素进行亚多普勒冷却。

Sub-Doppler cooling of fermionic Hg isotopes in a magneto-optical trap.

机构信息

LNE-SYRTE, Observatoire de Paris, CNRS, UPMC, 61 Avenue de l'Observatoire, 75014 Paris, France.

出版信息

Opt Lett. 2010 Sep 15;35(18):3078-80. doi: 10.1364/OL.35.003078.

DOI:10.1364/OL.35.003078

PMID:20847784

Abstract

Laser cooling and trapping of neutral mercury is performed in a single-stage (1)S(0)↔(3)P(1) 3D magneto-optical trap. We give a detailed account of the atom cloud size and temperature for both bosonic ((200)Hg and (202)Hg) and fermionic ((199)Hg and (201)Hg) isotopes. The bosonic isotope temperatures are in close agreement with Doppler cooling theory, while temperatures obtained for the fermionic isotopes are lower, suggesting the presence of sub-Doppler cooling. A minimum temperature of 29±4 μK is achieved for (201)Hg.

摘要

在单级 (1)S(0)↔(3)P(1) 3D 磁光阱中对中性汞进行激光冷却和捕获。我们详细描述了玻色 ((200)Hg 和 (202)Hg) 和费米 ((199)Hg 和 (201)Hg) 同位素的原子云大小和温度。玻色同位素的温度与多普勒冷却理论非常吻合，而费米同位素的温度较低，表明存在亚多普勒冷却。对于 (201)Hg，实现了 29±4 μK 的最低温度。