Publication: Energy Transfer in O Collisions with He Isotopes and Helium Escape from Mars
Open/View Files
Date
2011
Published Version
Journal Title
Journal ISSN
Volume Title
Publisher
Wiley-Blackwell
The Harvard community has made this article openly available. Please share how this access benefits you.
Citation
Bovino, S., P. Zhang, F. A. Gianturco, A. Dalgarno, and V. Kharchenko. 2011. Energy Transfer in O Collisions with He Isotopes and Helium Escape from Mars. Geophysical Research Letters 38, no. 2: L02203.
Research Data
Abstract
[1] Accurate data on energy-transfer collisions between hot oxygen atoms and the atmospheric helium gas on Mars, are reported. Anisotropic cross sections for elastic collisions of O(3P) and O(1D) atoms with helium gas have been calculated quantum mechanically and found to be surprisingly similar. Cross sections, computed for collisions with both helium isotopes, 3He and 4He, have been used to construct the kernel of the Boltzmann equation describing the energy relaxation of hot oxygen atoms. Computed rates of energy transfer in O+He collisions have been used to evaluate the flux of He atoms escaping from the Mars atmosphere. Atmospheric layers mostly responsible for production of the He escape flux are identified. Our results demonstrate that strong angular anisotropy of scattering cross sections increases the collisional ejection of light atoms and is critical in the evaluation of He escape from Mars, Venus and Earth.
Description
Other Available Sources
Keywords
helium escape, collision energy transfer, Boltzmann equation
Terms of Use
This article is made available under the terms and conditions applicable to Other Posted Material (LAA), as set forth at Terms of Service