Trapping paramagnetic molecules in a dynamic magnetic trap

IF 2.6 4区 物理与天体物理 Q2 PHYSICS, APPLIED
Sheng-Qiang Li, Jing Lin, Xue Chen, Nan-Nan Zhang
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引用次数: 0

Abstract

Trapping molecules in strong-field-seeking states is particularly attractive to scientists in the field of molecular optics. If the external field is strong enough, all molecules are strong-field seekers. Contrary to the weak-field-seeking states, molecules trapping in strong-field-seeking states can avoid the loss caused by the inelastic collision which is a stumbling block for evaporative and sympathetic cooling. Unfortunately, the formation of a magnetostatic maximum in free space is forbidden according to Maxwell’s equations and Earnshaw’s theory. In this paper, a dynamic magnetic trap consisting of three pairs of Helmholtz coils is proposed. The time-sequence control is given together with the distribution of the magnetic field in space. The influence of the switching frequency and electric current flowing through the wires on the number of trapped molecules is investigated. We obtain the changes in the locations and the phase-space distribution within a switching cycle by trajectory simulation. Finally, the influence of the time during which the field is off on the performance of our trap is studied.

在动态磁性陷阱中捕获顺磁分子
对分子光学领域的科学家来说,捕获处于强场寻求状态的分子尤其具有吸引力。如果外部场足够强,所有分子都是强场寻求者。与弱场寻求态相反,捕获在强场寻求态的分子可以避免非弹性碰撞造成的损失,而非弹性碰撞是蒸发冷却和共振冷却的绊脚石。遗憾的是,根据麦克斯韦方程和恩肖理论,在自由空间形成磁静力最大值是被禁止的。本文提出了一种由三对亥姆霍兹线圈组成的动态磁阱。本文给出了时序控制和磁场在空间的分布。研究了开关频率和流经导线的电流对被捕获分子数量的影响。我们通过轨迹模拟获得了开关周期内位置和相空间分布的变化。最后,我们还研究了磁场关闭时间对陷阱性能的影响。
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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来源期刊
International Journal of Modern Physics B
International Journal of Modern Physics B 物理-物理:凝聚态物理
CiteScore
3.70
自引率
11.80%
发文量
417
审稿时长
3.1 months
期刊介绍: Launched in 1987, the International Journal of Modern Physics B covers the most important aspects and the latest developments in Condensed Matter Physics, Statistical Physics, as well as Atomic, Molecular and Optical Physics. A strong emphasis is placed on topics of current interest, such as cold atoms and molecules, new topological materials and phases, and novel low dimensional materials. One unique feature of this journal is its review section which contains articles with permanent research value besides the state-of-the-art research work in the relevant subject areas.
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