The heating of directly transmitted ions at low Mach number, quasi-perpendicular collisionless shocks is rapid, greater than adiabatic, and exhibits a distinct T ⊥ > T ∥ anisotropy. In this paper we present a theoretical study of the evolution of the ion velocity distribution across a stationary one-dimensional perpendicular model shock profile. A Lagrangian/Hamiltonian formulation of the ion equations of motion is introduced. We argue that the classical statistical physics solution of Liouville's equation in terms of the energy (Hamiltonian) is not applicable to the case of a laminar perpendicular shock. Assuming a Maxwellian incident ion velocity distribution, it is possible to obtain the analytical form for the distribution through th...
Interplanetary shocks are believed to play an important role in the acceleration of charged particle...
Ion heating in collisionless shocks is non-adiabatic and efficient. The amount of heating and the do...
It has been well documented that the plasma immediately downstream of Earth\u27s quasi-perpendicular...
In a previous study the authors analysed the evolution of the ion velocity distribution across a sta...
The heating of directly transmitted ions at low Mach number, perpendicular and quasi perpendicular s...
Collisionless shock heats ions very efficiently. Ion heating is a nonadiabatic process and the downs...
The thesis investigates ion behaviour at collisionless shocks, with a focus on two areas of interest...
In a previous paper the authors analysed a simple model accounting for the anisotropic temperature i...
[1] Directed flow of incident ions provides the free energy which is redistributed in a shock among ...
Collisionless shocks efficiently convert the energy of the directed ion flow into their thermal ener...
In a laminar model of a collisionless magnetosonic shock wave, ion equations of motion are integrate...
In precisely perpendicular collisionless shock wave (CSW) gyrating ions should move in a plane perpe...
We review the ion and electron heating at the quasi-perpendicular collision-less shock front. The sh...
AbstractIn this study, the heating of ions with a Kappa (κ) velocity distribution by an Alfvén wave ...
Interplanetary shocks are believed to play an important role in the acceleration of charged particle...
Interplanetary shocks are believed to play an important role in the acceleration of charged particle...
Ion heating in collisionless shocks is non-adiabatic and efficient. The amount of heating and the do...
It has been well documented that the plasma immediately downstream of Earth\u27s quasi-perpendicular...
In a previous study the authors analysed the evolution of the ion velocity distribution across a sta...
The heating of directly transmitted ions at low Mach number, perpendicular and quasi perpendicular s...
Collisionless shock heats ions very efficiently. Ion heating is a nonadiabatic process and the downs...
The thesis investigates ion behaviour at collisionless shocks, with a focus on two areas of interest...
In a previous paper the authors analysed a simple model accounting for the anisotropic temperature i...
[1] Directed flow of incident ions provides the free energy which is redistributed in a shock among ...
Collisionless shocks efficiently convert the energy of the directed ion flow into their thermal ener...
In a laminar model of a collisionless magnetosonic shock wave, ion equations of motion are integrate...
In precisely perpendicular collisionless shock wave (CSW) gyrating ions should move in a plane perpe...
We review the ion and electron heating at the quasi-perpendicular collision-less shock front. The sh...
AbstractIn this study, the heating of ions with a Kappa (κ) velocity distribution by an Alfvén wave ...
Interplanetary shocks are believed to play an important role in the acceleration of charged particle...
Interplanetary shocks are believed to play an important role in the acceleration of charged particle...
Ion heating in collisionless shocks is non-adiabatic and efficient. The amount of heating and the do...
It has been well documented that the plasma immediately downstream of Earth\u27s quasi-perpendicular...
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