$\bar{\textrm{H}}^{+}$ Sympathetic Cooling Simulations with a Variable Time Step

arXiv: Computational Physics Pub Date : 2017-05-09 DOI:10.7566/JPSCP.18.011014
N. Sillitoe, J. Karr, J. Heinrich, T. Louvradoux, A. Douillet, L. Hilico
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引用次数: 5

Abstract

In this paper we present a new variable time step criterion for the velocity-Verlet algorithm allowing to correctly simulate the dynamics of charged particles exchanging energy via Coulomb collisions while minimising simulation time. We present physical arguments supporting the use of the criterion along with numerical results proving its validity. We numerically show that $\bar{\textrm{H}}^{+}$ ions with 18 meV initial energy can be captured and sympathetically cooled by a Coulomb crystal of $\textrm{Be}^{+}$ and $\textrm{HD}^{+}$ in less than 10 ms, an important result for the GBAR project.
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$\bar{\textrm{H}}^{+}$变时间步长的交感冷却模拟
在本文中,我们提出了一个新的变时间步长的速度- verlet算法准则,允许正确地模拟带电粒子通过库仑碰撞交换能量的动力学,同时最小化模拟时间。我们提出了支持使用该准则的物理论据以及证明其有效性的数值结果。我们的数值计算表明,$\textrm{be}^{+}$和$\textrm{HD}^{+}$的库仑晶体可以在不到10 ms的时间内捕获具有18 meV初始能量的$\bar{\textrm{H}}^{+}$离子,并将其同步冷却,这对GBAR项目是一个重要的结果。
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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arXiv: Computational Physics
arXiv: Computational Physics
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