准分子复合机制对早期宇宙中氢形成的影响

T. Kereselidze, I. Noselidze, J. Ogilvie
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引用次数: 2

摘要

在准分子方法的框架下,定量分析了宇宙演化前复合期氢原子的形成。绝热多层表示的计算可以估计辐射跃迁的概率。准分子复合机制允许在基态下形成氢分子离子$H_2^+$。这个过程发生的概率与氢原子产生的概率相当。第二个质子在重组中的参与增加了电子的结合能并降低了氢的重组速率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of a quasi-molecular mechanism of recombination on the formation of hydrogen in the early Universe
In the framework of a quasi-molecular approach, the formation of hydrogen atom in the pre-recombination period of evolution of the universe is analysed quantitatively. Calculations in an adiabatic multi-level representation enable estimates of probabilities of radiative transitions. The quasi-molecular mechanism of recombination allows the formation of hydrogen molecular ion, $H_2^+$, in its ground state. The probability of this process is comparable with the probability of the creation of atomic hydrogen. The participation of a second proton in the recombination increases the binding energy of an electron and decreases the rate of recombination of hydrogen.
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