Abstract
Space observations in several near-Earth environments have revealed the presence of positive-potential, large-amplitude electrostatic structures, associated with high-frequency disturbances, and indicative of electron dynamics. Earlier models proposed in terms of electron-acoustic solitary waves in a two-electron-temperature plasma were inadequate, because only negative potential structures could thus be obtained, whereas the observations point to positive potential structures. In this paper, it is shown that the theoretical restriction to negative potential solitons is due to the neglect of the inertia of the hot electrons, implicitly or explicitly assumed in previous papers. If hot electron inertia is retained, however, there exists a parameter range where positive potential solitary waves are formed, which can have important consequences for the re-interpretation of several astrophysical phenomena involving two-electron-temperature plasmas.
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PACS: 52.35.Mw, 52.35.Sb, 96.50.Ry
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Verheest, F., Cattaert, T. & Hellberg, M.A. Compressive and Rarefactive Electron-Acoustic Solitons and Double Layers in Space Plasmas. Space Sci Rev 121, 299–311 (2005). https://doi.org/10.1007/s11214-006-4148-7
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DOI: https://doi.org/10.1007/s11214-006-4148-7