RATE COEFFICIENT FOR H~+ + H_2(X~1∑_g~+, v = 0, J = 0) → H(1s)) + H_2~+ CHARGE TRANSFER AND SOME COSMOLOGICAL IMPLICATIONS

DANIEL WOLF SAVIN; PREDRAG S. KRSTIC; ZOLTAN HAIMAN; PHILLIP C. STANCIL

首页> 外文期刊>The Astrophysical journal >RATE COEFFICIENT FOR H~+ + H_2(X~1∑_g~+, v = 0, J = 0) → H(1s)) + H_2~+ CHARGE TRANSFER AND SOME COSMOLOGICAL IMPLICATIONS

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RATE COEFFICIENT FOR H~+ + H_2(X~1∑_g~+, v = 0, J = 0) → H(1s)) + H_2~+ CHARGE TRANSFER AND SOME COSMOLOGICAL IMPLICATIONS

机译：H〜+ + H_2（X〜1∑_g〜+，v = 0，J = 0）→H（1s））+ H_2〜+电荷转移及某些宇宙学意义的速率系数

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Krstic has carried out the first quantum mechanical calculations near threshold for the charge transfer (CT) process H~+ + H_2(X ~1∑_g~+, v = 0, J = 0) → H(1s) + H_2~+. These results are relevant for models of primordial galaxy and first star formation that require reliable atomic and molecular data for obtaining the hydrogen chemistry of the early universe. Using the results of Krstic, we calculate the relevant CT rate coefficient for temperatures between 100 and 30,000 K. We also present a simple fit that can be readily implemented into early universe chemical models. Additionally, we explore how the range of previously published data for this reaction translates into uncertainties in the predicted gas temperature and H_2 relative abundance in a collapsing primordial gas cloud. Our new data significantly reduce these cosmological uncertainties that are due to the uncertainties in the previously published CT rate coefficients.

机译：Krstic已完成了电荷转移（CT）过程H〜+ + H_2（X〜1∑_g〜+，v = 0，J = 0）→H（1s）+ H_2〜+的接近阈值的第一量子力学计算。这些结果与需要可靠的原子和分子数据以获取早期宇宙氢化学的原始星系和首次恒星形成模型有关。利用Krstic的结果，我们可以计算100至30,000 K之间温度的相关CT速率系数。我们还提出了一种简单的拟合方法，可以轻松地应用于早期的宇宙化学模型中。此外，我们探索了该反应先前公开的数据范围如何转化为原始气体云层塌陷中预测气体温度和H_2相对丰度的不确定性。我们的新数据显着减少了由于先前发布的CT速率系数的不确定性而引起的这些宇宙学不确定性。

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来源
《The Astrophysical journal 》 |2004年第2期| p.L167-L170| 共4页
作者
DANIEL WOLF SAVIN; PREDRAG S. KRSTIC; ZOLTAN HAIMAN; PHILLIP C. STANCIL;
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Columbia Astrophysics Laboratory, Columbia University, 550 West 120th Street, New York, NY 10027-6601;

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正文语种 eng
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1. RATE COEFFICIENT FOR H~+ + H_2(X~1∑_g~+, v = 0, J = 0) → H(1s)) + H_2~+ CHARGE TRANSFER AND SOME COSMOLOGICAL IMPLICATIONS [J] . DANIEL WOLF SAVIN, PREDRAG S. KRSTIC, ZOLTAN HAIMAN, The Astrophysical journal . 2004 ,第2aPta2期

机译：H〜+ + H_2（X〜1∑_g〜+，v = 0，J = 0）→H（1s））+ H_2〜+电荷转移的速率系数和某些宇宙学意义
2. Rate Coefficients for D(1s) + H+ ? D+ + H(1s) Charge Transfer and Some Astrophysical Implications [J] . Daniel Wolf Savin1 The Astrophysical journal . 2008 ,第1期

机译：D（1s）+ H +？的速率系数D + + H（1s）电荷转移和一些天文学意义
3. RATE COEFFICIENTS FOR D(1s) + H~+ <=> D+ + H(1s) CHARGE TRANSFER AND SOME ASTROPHYSICAL IMPLICATIONS [J] . DANIEL WOLF SAVIN The Astrophysical journal . 2002 ,第1aaParta1期

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
4. Cosmological Implications of the Uncertainty in Astrochemical Rate Coefficients [C] . S. C. O. Glover, D. W. Savin, A.-K. Jappsen NASA Laboratory Astrophysics Workshop . 2006

机译：在星式化速率系数中不确定性的宇宙学影响
5. Charge transfer in very slow H('+) + D(1s) half collisions [D] . Wells, Eric D. 2000

机译：在非常慢的H（'+）+ D（1s）半碰撞中进行电荷转移
6. Rate Coefficients of C1 and C2 Criegee Intermediate Reactions with Formic and Acetic Acid Near the Collision Limit: Direct Kinetics Measurements and Atmospheric Implications [O] . Oliver Welz, Arkke J Eskola, Leonid Sheps, -1

机译：碰撞极限附近的甲酸和乙酸引起的C1和C2学员中间反应的速率系数：直接动力学测量和大气意义
7. Rate Coefficient for H^+ + H_2(X ^1Sigma_g^+, nu=0, J=0) --> H(1s) + H_2^+ Charge Transfer and Some Cosmological Implications [O] . Savin, D W, Krstic, P S, Haiman, Z, 2004

机译：H ^ + + H_2（X ^ 1Sigma_g ^ +，nu = 0，J = 0）的速率系数-> H（1s）+ H_2 ^ +电荷转移和某些宇宙学意义

RATE COEFFICIENT FOR H~+ + H_2(X~1∑_g~+, v = 0, J = 0) → H(1s)) + H_2~+ CHARGE TRANSFER AND SOME COSMOLOGICAL IMPLICATIONS

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