2004
DOI: 10.1029/2004gl021282
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Reinterpretation of mirror modes as trains of slow magnetosonic solitons

Abstract: [1] It is shown that large amplitude periodic oscillations of the magnetic field measured frequently by spacecraft in the magnetosheath, and interpreted as mirror-mode waves/ structures, represent trains of slow-mode magnetosonic solitons. Nonlinear magnetosonic wave-trains with properties attributed previously to mirror-mode structures are obtained as exact solutions of Hall-MHD equations with anisotropic ion pressure. The theoretically derived properties of magnetosonic solitons are compared with multipoint … Show more

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Cited by 38 publications
(49 citation statements)
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“…This region has been denoted as slow alfvenons in the nomenclature introduced recently by Stasiewicz and Ekeberg (2008). Mirror modes, as demonstrated earlier by Stasiewicz (2004a) and reconfirmed further in this paper, belong to a smaller area denoted as slow magnetosonic solitons. An additional red region of unstable waves in the right lower corner corresponds to inertial electron Alfvén wave structures (IEAW), and it would vanish if m e = 0 is set in Eq.…”
Section: Dispersive Nonlinear Waves In Anisotropic Plasmassupporting
confidence: 73%
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“…This region has been denoted as slow alfvenons in the nomenclature introduced recently by Stasiewicz and Ekeberg (2008). Mirror modes, as demonstrated earlier by Stasiewicz (2004a) and reconfirmed further in this paper, belong to a smaller area denoted as slow magnetosonic solitons. An additional red region of unstable waves in the right lower corner corresponds to inertial electron Alfvén wave structures (IEAW), and it would vanish if m e = 0 is set in Eq.…”
Section: Dispersive Nonlinear Waves In Anisotropic Plasmassupporting
confidence: 73%
“…In a simplified version, with constant anisotropy, a p , the model has been used to study soliton solutions, which compare well with Cluster measurements (Stasiewicz, 2004a(Stasiewicz, ,b, 2005a, and to study polarization of solitary waves (Mjølhus, 2006). To illustrate applicability of this technique we apply it to Cluster measurements made on 12 February 2005 in the magnetosheath on an inbound orbit in the Southern Hemisphere.…”
Section: Polybaric Pressure Equationsmentioning
confidence: 99%
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“…The multipoint measurements made it possible to provide all of the relevant parameters of the solitons and their environment for the first time. Stasiewicz (2004) applied a model of nonlinear waves in anisotropic plasmas, including electron inertial effects, to reinterpret mirror modes observed in the magnetosheath as trains of slow magnetosonic solitons. He obtained exact nonlinear magnetosonic wave-train solutions to the Hall-MHD equations with anisotropic ion pressure.…”
Section: Magnetosonic Solitonsmentioning
confidence: 99%
“…Recent development was stimulated by identification of magnetosonic solitons in Cluster measurements (Stasiewicz et al, 2003;Stasiewicz, 2004b), and modelling their properties with Hall-MHD equations integrated directly in the approach based on constants of motion (McKenzie et al, 2004), rather than on approximative DNSL solutions. Multi-fluid equations for bi-ion plasmas have oscillatory solutions with a soliton envelope, called "oscillitons" by Sauer et al (2001).…”
Section: Other Theoretical Models For Dispersive Alfvén Waves and Solmentioning
confidence: 99%