Boundaries of universality of thermal collisions for atom-atom scattering

Xuyang Guo, Kirk W. Madison, James L. Booth, Roman V. Krems
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Abstract

Thermal rate coefficients for some atomic collisions have been observed to be remarkably independent of the details of interatomic interactions at short range. This makes these rate coefficients universal functions of the long-range interaction parameters and masses, which was previously exploited to develop a self-defining atomic sensor for ambient pressure. Here, we employ rigorous quantum scattering calculations to examine the response of thermally averaged rate coefficients for atom-atom collisions to changes in the interaction potentials. We perform a comprehensive analysis of the universality, and the boundaries thereof, by treating the quantum scattering observables as probabilistic predictions determined by a distribution of interaction potentials. We show that there is a characteristic change of the resulting distributions of rate coefficients, separating light, few-electron atoms and heavy, polarizable atoms. We produce diagrams that illustrate the boundaries of the thermal collision universality at different temperatures and provide guidance for future experiments seeking to exploit the universality.
原子-原子散射热碰撞的普遍性边界
据观察,某些原子碰撞的热速率系数与短程原子间相互作用的细节明显无关。这使得这些速率系数成为长程相互作用参数和质量的通用函数,以前曾有人利用这一点开发了环境压力自定义原子传感器。在这里,我们采用严格的量子散射计算来检验原子-原子碰撞的热平均速率系数对相互作用势变化的响应。我们将量子散射观测值视为由相互作用势分布决定的概率预测,从而对其普遍性及其边界进行了全面分析。我们表明,由此产生的速率系数分布有一个特征性变化,将轻质、少电子原子和重质、可极化原子区分开来。我们绘制的图表说明了不同温度下热碰撞普遍性的边界,并为未来寻求利用普遍性的实验提供了指导。
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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