Evaluation of isotopic fractionation of oxygen ions escaping from terrestrial thermosphere
- 作者:Yasutaka Hirakia ; hiraki.yasutaka@nifs.ac.jp ; Akinori Yamadab ; Yasuko Kasaic ; Takamasa Setac ; Minoru Ozimab
- 刊名:Geochimica et Cosmochimica Acta
- 出版年:2012
- 期刊代码:27_00167037
- 类别:ear
- 出版时间:1 May, 2012
- 卷:84
- 期:Complete
- 页码:525-533
- 文件大小:412 K
摘要
Oxygen isotopic ratios in contemporary lunar soils indicate a highly mass-independent fractionation (MIF) of per mil. This fraction is comparable to the ratio for stratospheric ozone and is thus supposed to have originated from the terrestrial upper atmosphere through transport of oxygen ions by the intense Earth wind. In this paper, we develop a one-dimensional chemical model that can solve for the ionic and neutral compositions of oxygen isotopes by including the isotopic effects in dynamical, photolytic, and chemical processes. We first confirm that the isotopic ratios of , , O, and are nearly mass dependent, per mil, when the isotopic effects of multiple (eddy, molecular, and ambipolar) diffusion processes are taken into account. We examine which photolytic and chemical processes can produce a strong MIF for oxygen species and select four candidates: photo-dissociative ionization of , photo-dissociation of by Lyman- solar emissions, charge exchange between and , and atomic exchanges between O and . We estimated the oxygen isotopic ratio to be per mil at the height of 100-400 km on the basis of a statistical treatment of atom mechanics. These values are smaller than those in the lunar case, and we conclude that a more rigorous quantum mechanical treatment of photo-dissociation processes will be necessary before we can make an evaluation of the role of Earth-escaping oxygen isotopes.