The Role of H+3 in Planetary Atmospheres

Spectroscopic studies of the upper atmospheres of the giant planets using infrared wavelengths sensitive to the H+3 molecular ion show that this species plays a critical role in determining the physical conditions there. For Jupiter, we propose that the recently detected H+3 electrojet holds the key...

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Veröffentlicht in:Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences physical, and engineering sciences, 2000-09, Vol.358 (1774), p.2485-2502
Hauptverfasser: Miller, Steven, Achilleos, Nick, Ballester, Gilda E., Geballe, Thomas R., Joseph, Robert D., Prange, Renee, Rego, Daniel, Stallard, Tom, Tennyson, Jonathan, Trafton, Laurence M., Waite, J. Hunter
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Sprache:eng
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Zusammenfassung:Spectroscopic studies of the upper atmospheres of the giant planets using infrared wavelengths sensitive to the H+3 molecular ion show that this species plays a critical role in determining the physical conditions there. For Jupiter, we propose that the recently detected H+3 electrojet holds the key to the mechanism by which the equatorial plasma sheet is kept in (partial) co-rotation with the planet, and that this mechanism also provides a previously unconsidered source of energy that helps explain why the jovian thermosphere is considerably hotter than expected. For Saturn, we show that the H+3 auroral emission is ca. 1% of that of Jupiter because of the lower ionospheric/thermospheric temperature and the lower flux of ionizing particles precipitated there; it is probably unnecessary to invoke additional chemistry in the auroral/polar regions. For Uranus, we report further evidence that its emission intensity is controlled by the cycle of solar activity. And we propose that H+3 emission may just be detectable using current technology from some of the giant extra-solar planets that have been detected orbiting nearby stars, such as Tau Bootes.
ISSN:1364-503X
1471-2962
DOI:10.1098/rsta.2000.0662