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Ion composition in interchange injection events in Saturn's magnetosphere
Author(s) -
Thomsen M. F.,
Reisenfeld D. B.,
Wilson R. J.,
Andriopoulou M.,
Crary F. J.,
Hospodarsky G. B.,
Jackman C. M.,
Jia X.,
Khurana K. K.,
Paranicas C.,
Roussos E.,
Sergis N.,
Tokar R. L.
Publication year - 2014
Publication title -
journal of geophysical research: space physics
Language(s) - English
Resource type - Journals
eISSN - 2169-9402
pISSN - 2169-9380
DOI - 10.1002/2014ja020489
Subject(s) - magnetosphere , saturn , physics , plasma , ion , radius , magnetosphere of saturn , spectral line , spacecraft , dipole , astrophysics , atomic physics , computational physics , astronomy , magnetopause , nuclear physics , planet , computer security , quantum mechanics , computer science
Interchange injection events are commonly observed by the Cassini spacecraft in the region between about 6 and 12 R s (1 R s  = 60,268 km) and even frequently beyond. In this study, 13 examples of interchange injection events are identified in Cassini/Cassini Plasma Spectrometer data under special conditions such that time‐of‐flight (TOF) mass spectra could be obtained from entirely within the events. Using the TOF data to separate the main ion species H + , H 2 + , and W + , approximate densities of each species are calculated under the assumption that all distributions were isotropic. The light‐ion density ratios, H 2 + /H + , in the injection events are not discernibly different from those ratios in control intervals from the ambient plasma. However, the water‐group ratio, W + /H + , is significantly lower than ambient. The comparison of the measured density ratios with the range of values observed throughout Saturn's magnetosphere indicates that the values of W + /H + that are as low as those observed within the injection events are found primarily beyond L ~14 (where L is the equatorial crossing distance, in Saturn radius, of a dipole field line), indicating that the injection events are delivering plasma from the outer magnetosphere at times traveling at least 6 R s .

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