2021
DOI: 10.1029/2020ja028611
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Alfvén Wave Parallel Electric Field in the Dipole Model of the Magnetosphere: Gyrokinetic Treatment

Abstract: A mechanism for generation of the parallel electric field by Alfvén wave in the dipole model of the magnetosphere in full gyrokinetics is proposed. The parallel electric field of the Alfvén mode is caused by the coupling of the Alfvén and electrostatic modes due to the plasma inhomogeneity and field line curvature in presence of the trapped hot electrons. The parallel electric field is described by an inhomogeneous integral equation arising from the averaging of the bounce motion of hot electrons. It was found… Show more

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Cited by 14 publications
(14 citation statements)
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“…where n is the number density, ε = v 2 /2 is the particle energy per unit mass, v is particle velocity, and ε 0 j is the temperature. Hereinafter, the index j indicates the belonging to the protons (p) or the electrons (e), respectively " [12].…”
Section: Coordinate System and Governing Equationsmentioning
confidence: 99%
See 4 more Smart Citations
“…where n is the number density, ε = v 2 /2 is the particle energy per unit mass, v is particle velocity, and ε 0 j is the temperature. Hereinafter, the index j indicates the belonging to the protons (p) or the electrons (e), respectively " [12].…”
Section: Coordinate System and Governing Equationsmentioning
confidence: 99%
“…The ULF waves are characterized by the frequencies ω much lower than the gyrofrequency ω c . Such modes are conventionally considered in the gyrokinetics framework, where the wave's electromagnetic field is described by three variables: "φ is the electrostatic potential, b is the parallel magnetic field, and ψ is the potential related to the parallel vector potential, as A = −(ic/ω)∂ψ/∂l " [12]. In this case, the transverse and parallel electric fields of the wave are the following, respectively:…”
Section: Coordinate System and Governing Equationsmentioning
confidence: 99%
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