Increasing positive ion number densities below the peak of ion-electron pair production in titan's ionosphere

E. Vigren; M. Galand; O. Shebanits; J. E. Wahlund; W. D. Geppert; P. Lavvas; V. Vuitton; R. V. Yelle

doi:10.1088/0004-637X/786/1/69

Increasing positive ion number densities below the peak of ion-electron pair production in titan's ionosphere

E. Vigren, M. Galand, O. Shebanits, J. E. Wahlund, W. D. Geppert, P. Lavvas, V. Vuitton, R. V. Yelle

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

We combine derived ion-electron pair formation rates with Cassini Radio Plasma Wave Science Langmuir Probe measurements of electron and positive ion number densities in Titan's sunlit ionosphere. We show that positive ion number densities in Titan's sunlit ionosphere can increase toward significantly lower altitudes than the peak of ion-electron pair formation despite that the effective ion-electron recombination coefficient increases. This is explained by the increased mixing ratios of negative ions, which are formed by electron attachment to neutrals. While such a process acts as a sink for free electrons, the positive ions become longer-lived as the rate coefficients for ion-anion neutralization reactions are smaller than those for ion-electron dissociative recombination reactions.

Original language	English (US)
Article number	69
Journal	Astrophysical Journal
Volume	786
Issue number	1
DOIs	https://doi.org/10.1088/0004-637X/786/1/69
State	Published - May 1 2014

Keywords

molecular processes
planets and satellites: individual (Titan)

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.1088/0004-637X/786/1/69

Cite this

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abstract = "We combine derived ion-electron pair formation rates with Cassini Radio Plasma Wave Science Langmuir Probe measurements of electron and positive ion number densities in Titan's sunlit ionosphere. We show that positive ion number densities in Titan's sunlit ionosphere can increase toward significantly lower altitudes than the peak of ion-electron pair formation despite that the effective ion-electron recombination coefficient increases. This is explained by the increased mixing ratios of negative ions, which are formed by electron attachment to neutrals. While such a process acts as a sink for free electrons, the positive ions become longer-lived as the rate coefficients for ion-anion neutralization reactions are smaller than those for ion-electron dissociative recombination reactions.",

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T1 - Increasing positive ion number densities below the peak of ion-electron pair production in titan's ionosphere

AU - Vigren, E.

AU - Galand, M.

AU - Shebanits, O.

AU - Wahlund, J. E.

AU - Geppert, W. D.

AU - Lavvas, P.

AU - Vuitton, V.

AU - Yelle, R. V.

PY - 2014/5/1

Y1 - 2014/5/1

N2 - We combine derived ion-electron pair formation rates with Cassini Radio Plasma Wave Science Langmuir Probe measurements of electron and positive ion number densities in Titan's sunlit ionosphere. We show that positive ion number densities in Titan's sunlit ionosphere can increase toward significantly lower altitudes than the peak of ion-electron pair formation despite that the effective ion-electron recombination coefficient increases. This is explained by the increased mixing ratios of negative ions, which are formed by electron attachment to neutrals. While such a process acts as a sink for free electrons, the positive ions become longer-lived as the rate coefficients for ion-anion neutralization reactions are smaller than those for ion-electron dissociative recombination reactions.

AB - We combine derived ion-electron pair formation rates with Cassini Radio Plasma Wave Science Langmuir Probe measurements of electron and positive ion number densities in Titan's sunlit ionosphere. We show that positive ion number densities in Titan's sunlit ionosphere can increase toward significantly lower altitudes than the peak of ion-electron pair formation despite that the effective ion-electron recombination coefficient increases. This is explained by the increased mixing ratios of negative ions, which are formed by electron attachment to neutrals. While such a process acts as a sink for free electrons, the positive ions become longer-lived as the rate coefficients for ion-anion neutralization reactions are smaller than those for ion-electron dissociative recombination reactions.

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Increasing positive ion number densities below the peak of ion-electron pair production in titan's ionosphere

Abstract

Keywords

ASJC Scopus subject areas

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