Mobility of carbon ions C+(2P◦) and C+(4P) in helium computed from quantum-mechanical transport cross sections

Aissaoui Lamia; Bouledroua Moncef; Alioua Kamel

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Mobility of carbon ions C+(2P◦) and C+(4P) in helium computed from quantum-mechanical transport cross sections

Aissaoui Lamia, Bouledroua Moncef and Alioua Kamel (2015) Mobility of carbon ions C+(2P◦) and C+(4P) in helium computed from quantum-mechanical transport cross sections. Molecular Physics , 214(), , Wiley

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Abstract

On the light of a previous work and its recommendations by Matoba et al. [J. Phys. B 41, 145205 (2008)], this paper
proposes to look at the mobility of ground and metastable-excited states of C+ ions moving into a helium buffer gas.
The calculations, based on the three-temperature theory for solving the Boltzmann kinetic equation, are accomplished
with quantum-mechanical transport cross sections at the low temperatures 4.3 and 77K. The obtained mobility results are
contrasted with the available theoretical data and experimental measurements, which show acceptable agreements.

Information

Item Type	Journal
Divisions	» Laboratory of Physics for Matter and Radiation
ePrint ID	393
Date Deposited	2015-07-10
Further Information	Google Scholar
URI	https://univ-soukahras.dz/en/publication/article/393

BibTex

@article{uniusa393,
    title={Mobility of carbon ions C+(2P◦) and C+(4P) in helium computed from quantum-mechanical transport cross sections},
    author={Aissaoui Lamia, Bouledroua Moncef and Alioua Kamel},
    journal={Molecular Physics}
    year={2015},
    volume={214},
    number={},
    pages={},
    publisher={Wiley}
}

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