Ionization balance in Titan’s nightside ionosphere

Vigren, Erik; Galand, M.; Yelle, R. V.; Wellbrock, A.; Coates, A. J.; Snowden, D.; Cui, Jun; Lavvas, P.; Edberg, Niklas J. T.; Shebanits, Oleg; Wahlund, J. E.; Vuitton, V.; Mandt, K.

doi:10.1016/j.icarus.2014.11.012

Cited by 24 publications

(30 citation statements)

References 41 publications

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“…At present the modeled plasma number densities on the dayside are higher than the RPWS/LP-derived values by a factor of ∼1.92 ± 0.08. On the nightside the level of agreement is better, the modeled values being on average a factor of ∼1.05 ± 0.16 higher than observed (Vigren et al 2013(Vigren et al , 2015. 2.…”

Section: Summary and Concluding Remarksmentioning

confidence: 67%

“…Based on ambient suprathermal electron fluxes measured by the Cassini Plasma Spectrometer/Electron Spectrometer (CAPS/ELS) and N 2 and CH 4 number densities measured by the Ion Neutral Mass Spectrometer in the Closed Source Neutral mode (INMS/CNS), Vigren et al (2015) calculated electron production rates at different locations along the T55-T59 Titan flybys by the Cassini spacecraft. The derived electron production rates were combined with estimates of the effective recombination coefficient, and the resulting plasma number densities (which were defined as the geometric mean of the electron and positive ion number densities) agreed well with values derived from RPWS/LP observations.…”

Section: Model-observation Comparison Of Electron Number Densities Inmentioning

confidence: 99%

“…Negative ions, when present, typically contaminate the measurements in the central anodes, 4-5. For this reason and others (see discussion in Vigren et al 2015) we have in the present study utilized the measurements from anode 2 of the CAPS/ELS instrument. By instead using anode 6, we obtain similar (within 15%) results to those presented in Tables 2-3 (see Section 3).…”

Section: Cassini Suprathermal Electron Observationsmentioning

confidence: 99%

“…In this subsection we focus explicitly on CAPS/ELS-derived electron production rates (P e,EI,O ) and view the present dayside results against results associated with the nine nightside locations (sampled from the T55-T59 flybys) investigated in the study by Vigren et al (2015). In Figure 3(a) we display the contribution to the total electron-impact electron production rate of electrons with energies <60 eV.…”

Section: Caps/els-derived Electron-impact Ionization Frequencies On Tmentioning

confidence: 99%

“…Shown as a function of ambient N 2 + CH 4 number densities (derived from INMS/CSN measurements) are (a) the relative contribution of <60 eV electrons to the CAPS/ELS-derived electron-impact ionization frequencies (electron energies up to 10 keV considered), (b) electron-impact ionization frequencies when limited to electrons with energies <60 eV, and (c) electron-impact ionization frequencies when limited to electrons with energies <10 keV. The nightside points (shown by magenta triangles) are taken from the study by Vigren et al (2015) and are associated with the T55-T59 flybys.…”

Section: Caps/els-derived Electron-impact Ionization Frequencies On Tmentioning

confidence: 99%

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Suprathermal Electrons in Titan’s Sunlit Ionosphere: Model–observation Comparisons

Vigren

Galand

Wellbrock

et al. 2016

ApJ

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The dayside ionosphere of the Saturnian satellite Titan is generated mainly from photoionization of N 2 and CH 4 . We compare model-derived suprathermal electron intensities with spectra measured by the Cassini Plasma Spectrometer/Electron Spectrometer (CAPS/ELS) in Titanʼs sunlit ionosphere (altitudes of 970-1250 km) focusing on the T40, T41, T42, and T48 Titan flybys by the Cassini spacecraft. The model accounts only for photoelectrons and associated secondary electrons, with a main input being the impinging solar EUV spectra as measured by the Thermosphere Ionosphere Mesosphere Energy and Dynamics/Solar EUV Experiment and extrapolated to Saturn. Associated electron-impact electron production rates have been derived from ambient number densities of N 2 and CH 4 (measured by the Ion Neutral Mass Spectrometer/Closed Source Neutral mode) and related energy-dependent electron-impact ionization cross sections. When integrating up to electron energies of 60 eV, covering the bulk of the photoelectrons, the model-based values exceed the observationally based values typically by factors of ∼3 ± 1. This finding is possibly related to current difficulties in accurately reproducing the observed electron number densities in Titanʼs dayside ionosphere. We compare the utilized dayside CAPS/ELS spectra with ones measured in Titanʼs nightside ionosphere during the T55-T59 flybys. The investigated nightside locations were associated with higher fluxes of high-energy (>100 eV) electrons than the dayside locations. As expected, for similar neutral number densities, electrons with energies <60 eV give a higher relative contribution to the total electron-impact ionization rates on the dayside (due to the contribution from photoelectrons) than on the nightside.

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Section: Summary and Concluding Remarksmentioning

confidence: 67%

Section: Model-observation Comparison Of Electron Number Densities Inmentioning

confidence: 99%

Section: Cassini Suprathermal Electron Observationsmentioning

confidence: 99%

Section: Caps/els-derived Electron-impact Ionization Frequencies On Tmentioning

confidence: 99%

Section: Caps/els-derived Electron-impact Ionization Frequencies On Tmentioning

confidence: 99%

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Suprathermal Electrons in Titan’s Sunlit Ionosphere: Model–observation Comparisons

Vigren

Galand

Wellbrock

et al. 2016

ApJ

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Influence of local ionization on ionospheric densities in Titan's upper atmosphere

et al. 2015

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. We find that on the dayside the solar energy deposition model overestimates the INMS-derived N + 2 production rates by a factor of 2. On the nightside, however, the model driven by suprathermal electron intensities from the Cassini Plasma Spectrometer Electron Spectrometer sometimes agrees and other times underestimates the INMS-derived N + 2 production rates by a factor of up to 2-3. We find that below 1200 km, all ion number densities correlate with the local ionization frequency, although the correlation is significantly stronger for short-lived ions than long-lived ions. Furthermore, we find that, for a given N 2 local ionization frequency, CH + 5 has higher densities on the dayside than on the nightside. We explain that this is due to CH 4 being more efficiently ionized by solar photons than by magnetospheric electrons for a given amount of N 2 ionization.

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Effects of Saturn's magnetospheric dynamics on Titan's ionosphere

et al. 2015

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We use the Cassini Radio and Plasma Wave Science/Langmuir probe measurements of the electron density from the first 110 flybys of Titan to study how Saturn's magnetosphere influences Titan's ionosphere. The data is first corrected for biased sampling due to varying solar zenith angle and solar energy flux (solar cycle effects). We then present results showing that the electron density in Titan's ionosphere, in the altitude range 1600–2400 km, is increased by about a factor of 2.5 when Titan is located on the nightside of Saturn (Saturn local time (SLT) 21–03 h) compared to when on the dayside (SLT 09‐15 h). For lower altitudes (1100–1600 km) the main dividing factor for the ionospheric density is the ambient magnetospheric conditions. When Titan is located in the magnetospheric current sheet, the electron density in Titan's ionosphere is about a factor of 1.4 higher compared to when Titan is located in the magnetospheric lobes. The factor of 1.4 increase in between sheet and lobe flybys is interpreted as an effect of increased particle impact ionization from ∼200 eV sheet electrons. The factor of 2.5 increase in electron density between flybys on Saturn's nightside and dayside is suggested to be an effect of the pressure balance between thermal plus magnetic pressure in Titan's ionosphere against the dynamic pressure and energetic particle pressure in Saturn's magnetosphere.

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Ionization balance in Titan’s nightside ionosphere

Cited by 24 publications

References 41 publications

Suprathermal Electrons in Titan’s Sunlit Ionosphere: Model–observation Comparisons

Suprathermal Electrons in Titan’s Sunlit Ionosphere: Model–observation Comparisons

Influence of local ionization on ionospheric densities in Titan's upper atmosphere

Effects of Saturn's magnetospheric dynamics on Titan's ionosphere

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