光学学报, 2017, 37 (12): 1202001, 网络出版: 2018-09-06
一种光学通道开放且适合构建晶格的静电阱 下载: 557次
Electrostatic Trap Suitable for Construction of Lattices with Opened Optical Access
原子与分子物理学 冷极性分子 蒙特卡罗法模拟 静电晶格 有限元分析 atomic and molecular physics cold polar molecules simulations by Monte Carlo method electrostatic lattices finite element analysis
摘要
提出了一种用三个带电球电极形成一个光学通道开放、针对弱场搜寻态冷极性分子的静电囚禁方案。给出了方案图,用镜像法推导了空间电场分布的解析解,并利用有限元软件得到了电场分布的数值解。采用经典蒙特卡罗法模拟了冷极性分子被装载和囚禁于静电阱的动力学过程。研究了入射分子束速度和装载时刻对装载效率的影响,给出了被囚禁的冷分子的温度。讨论了所提方案在芯片表面囚禁,尤其是在静电晶格方面的潜在应用。结果表明,装载效率可以达到47.4%, 阱中冷分子的温度为25.4 mK。
Abstract
An electrostatic trapping scheme using three charged spherical electrodes with opened optical access for cold polar molecules in the weak-seeking states is proposed, and the schematic drawing is given. The analytical expressions for the space electrical field distribution are derived with the image charge method. The numerical solution of electrical field distribution is calculated by the finite element software. Dynamic process of the loading and trapping cold polar molecules in an electrostatic trap is simulated with the classical Monte Carlo method. The influences of velocity of the incident molecular beam and loading time on the loading efficiency are studied, and the temperature of the trapped cold molecules is given. Some potential applications of the scheme in the electrostatic surface trapping especially the electrostatic lattices for cold polar molecules are discussed. Results show that the loading efficiency can reach 47.4%, and the temperature of trapped cold molecules is 25.4 mK.
李胜强, 张梦芝, 杨亮亮. 一种光学通道开放且适合构建晶格的静电阱[J]. 光学学报, 2017, 37(12): 1202001. Shengqiang Li, Mengzhi Zhang, Liangliang Yang. Electrostatic Trap Suitable for Construction of Lattices with Opened Optical Access[J]. Acta Optica Sinica, 2017, 37(12): 1202001.