模拟受控库仑爆炸中的德西特空间

arXiv: Atomic Physics Pub Date : 2020-10-19 DOI:10.1103/PHYSREVA.103.043101

E. B. Kolomeisky

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引用次数: 2

摘要

由激光控制的时变电荷控制的原子气体的库仑爆炸可以用一个数目不守恒的相同电荷的宏观系统来模拟。我们证明了这样一个系统可以以空间均匀和各向同性的方式进化，模仿加速宇宙膨胀。具体地说，对于一个恒定的电荷产生速率，得到的弗里德曼-库仑方程有一个稳定的不动点，对应于德西特空间的模拟。

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Analog de Sitter space in a controlled Coulomb explosion

The Coulomb explosion of an atomic gas steered by laser-controlled time-dependent charging can be modeled by a macroscopic system of identical charges whose number is not conserved. We show that such a system can evolve in the spatially homogeneous and isotropic fashion that mimics accelerating cosmic expansions. Specifically, for a constant rate of charge production, the resulting Friedmann-Coulomb equations have a stable fixed point corresponding to an analog of de Sitter space.

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arXiv: Atomic Physics

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