RATE COEFFICIENTS FOR D(1s) + H~+ <=> D+ + H(1s) CHARGE TRANSFER AND SOME ASTROPHYSICAL IMPLICATIONS

DANIEL WOLF SAVIN

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RATE COEFFICIENTS FOR D(1s) + H~+ <=> D+ + H(1s) CHARGE TRANSFER AND SOME ASTROPHYSICAL IMPLICATIONS

机译：D（1s）+ H〜+ <=> D + + H（1s）电荷转移的速率系数和某些天体物理学意义

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We have calculated the rate coefficients for D(1s) + H~+ <=> D~+ + H(1s) using recently published theoretical cross sections. We present results for temperatures T from 1 K up to 2 x 10~5 K and provide fits to our data for use in plasma modeling. Our calculations are in good agreement with previously published rate coefficients for 25 ≤ T ≤ 300 K, which covers most of the limited range for which those results were given. Our new rate coefficients for T approx> 100 K are significantly larger than the values most commonly used for modeling the chemistry of the early universe and of molecular clouds. This may have important implications for the predicted HD abundance in these environments. Using our results, we have modeled the ionization balance in high-redshift QSO absorbers. We find that the new rate coefficients decrease the inferred D/H ratio by approx< 0.4%. This is a factor of approx> 25 smaller than the current approx> 10% uncertainties in QSO absorber D/H measurements.

机译：我们已经使用最近发表的理论截面来计算D（1s）+ H〜+ <=> D〜+ + H（1s）的速率系数。我们给出了从1 K到2 x 10〜5 K的温度T的结果，并提供了适合我们的数据以用于等离子体建模的结果。我们的计算与先前发布的25≤T≤300 K的速率系数非常吻合，该系数涵盖了给出这些结果的大部分受限范围。我们新的T约> 100 K的速率系数大大大于最常用来模拟早期宇宙和分子云化学的值。这可能会对这些环境中预计的HD丰度产生重要影响。使用我们的结果，我们对高红移QSO吸收器中的电离平衡建模。我们发现新的速率系数使推断的D / H比降低了约<0.4％。这比QSO吸收器D / H测量中当前的不确定性（约10％）小约25倍。

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《The Astrophysical journal》 |2002年第1期|p.599-603|共5页
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DANIEL WOLF SAVIN;
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RATE COEFFICIENTS FOR D(1s) + H~+ <=> D+ + H(1s) CHARGE TRANSFER AND SOME ASTROPHYSICAL IMPLICATIONS

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