Muonic helium atom as a classical three-body problem

Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics Pub Date : 2000-12-01 DOI:10.1103/physreve.62.7831

Stuchi, Antunes, Andreu

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引用次数: 10

Abstract

We study the classical problem of the muonic helium atom, a helium atom with one of its electrons replaced by a muon. First, we establish the connection of the model with the one-dimensional frozen planetary approximation of the helium atom and find that there is classically stable motion for the configuration alpha-particle-electron-muon, and no stable motion for the alpha-particle-muon-electron configuration. After that, we introduce the restricted muonic helium problem, a model for the movement of an electron in the potential of the alpha particle/muon pair moving in a circular orbit. In this model, the equilibrium points, their associated Lyapunov families of periodic orbits, and their stability parameters were studied. The most interesting feature is the stability of the halo orbits, for a range of energy values. The vicinity of the alpha particle is also studied, examining Poincare sections for increasing energy values showing an increase of the chaotic motion.

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介子氦原子是一个经典的三体问题

我们研究了介子氦原子的经典问题，一个氦原子的一个电子被一个介子取代。首先，我们将模型与氦原子的一维冻结行星近似建立了联系，发现粒子-电子-介子组态存在经典稳定运动，粒子-介子-电子组态不存在经典稳定运动。然后，我们引入了受限介子氦问题，这是一个在圆形轨道上运动的α粒子/介子对的势中电子运动的模型。在该模型中，研究了平衡点、周期轨道的Lyapunov族及其稳定性参数。最有趣的特征是光晕轨道在一定能量范围内的稳定性。还研究了α粒子的附近，检查庞加莱截面，以增加能量值，显示混沌运动的增加。

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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Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics

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