Add to ORKGWe study, both theoretically and numerically, qualitative and quantitative properties of the solutions a Vlasov-Poisson system modeling the interaction between a plasma and a cylindrical Langmuir probe. In particular, we exhibit a class of radial solutions for which the electrostatic potential is increasing concave with a strong variation in the vicinity of the probe which scales as the inverse of the Debye length. These solutions are proven to exist provided the incoming distributions of particles from the plasma verify the so called generalized Bohm condition of plasma physics. It extends the study [1]. Small perturbations of the radial semi-Maxwellian incoming distributions are then investigated numerically. We notably observe potential ...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism whic...
The first mixed problem for the Vlasov–Poisson system in an infinite cylinder is considered. This pr...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism, whi...
Current collection by positively polarized cylindrical Langmuir probes immersed in flowing plasmas i...
This paper presents solutions for the classical one-dimensional (1D radial and Cartesian) problem of...
The kinetic features of the sheath around a cylindrical emitter immersed in collisionless plasma at ...
A particle-in-cell simulation has been developed to study the behaviour of ions in the surroundings ...
Electric probes are objects immersed in the plasma with sharp boundaries which collect of emit charg...
The presented thesis deals with the study of the sheath layer which is formed during the interaction...
We present a kinetic description of localized potential structures in a magnetized plasma. It is sho...
This study investigates the axisymmetric plasma flow field near a fixed-potential surface, represent...
Consider the interaction of a flowing plasma with a planar Langmuir probe [2]. Assume that the plasm...
Abstract: This study investigates the axisymmetric plasma flow field near a Faraday probe. A hybrid ...
A full-kinetic model based on the orbital-motion theory for cylindrical emissive probes (EPs) is pre...
The probe current can be described by a formula from the orbital motion theory given by Langmuir. Th...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism whic...
The first mixed problem for the Vlasov–Poisson system in an infinite cylinder is considered. This pr...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism, whi...
Current collection by positively polarized cylindrical Langmuir probes immersed in flowing plasmas i...
This paper presents solutions for the classical one-dimensional (1D radial and Cartesian) problem of...
The kinetic features of the sheath around a cylindrical emitter immersed in collisionless plasma at ...
A particle-in-cell simulation has been developed to study the behaviour of ions in the surroundings ...
Electric probes are objects immersed in the plasma with sharp boundaries which collect of emit charg...
The presented thesis deals with the study of the sheath layer which is formed during the interaction...
We present a kinetic description of localized potential structures in a magnetized plasma. It is sho...
This study investigates the axisymmetric plasma flow field near a fixed-potential surface, represent...
Consider the interaction of a flowing plasma with a planar Langmuir probe [2]. Assume that the plasm...
Abstract: This study investigates the axisymmetric plasma flow field near a Faraday probe. A hybrid ...
A full-kinetic model based on the orbital-motion theory for cylindrical emissive probes (EPs) is pre...
The probe current can be described by a formula from the orbital motion theory given by Langmuir. Th...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism whic...
The first mixed problem for the Vlasov–Poisson system in an infinite cylinder is considered. This pr...
We present analytical and numerical studies of a new electron plasma wave interaction mechanism, whi...