We consider dynamics of magnetic billiards with curved boundaries and strong inhomogeneous magnetic field. We investigate a violation of adiabaticity of charged particle motion in this system. The destruction of adiabatic invariance is due to the change of type of the particle trajectory: particles can drift along the boundary reflecting from it or rotate around the magnetic field at some distance from the boundary without collisions with it. Trajectories of these two types are demarcated in the phase space by a separatrix. Crossings of the separatrix result in jumps of the adiabatic invariant. We derive an asymptotic formula for such a jump and demonstrate that an accumulation of these jumps leads to the destruction of the adiabatic invari...
AbstractDynamical properties are studied for escaping particles, injected through a hole in an oval ...
We consider here the classical problem of charge trapping by strong nonuniform magnetic fields (Van ...
Breakdown of adiabaticity of electrons crossing a collisionless shock front is analysed in details. ...
The motion of charged particles in slowly changing magnetic fields exhibits adiabatic invariance eve...
International audienceWe investigate dynamics of charged particles in current sheets with the sheare...
We consider free rotation of a body whose parts move slowly with respect to each other under the act...
We explore topological transitions in parameter space in order to enable adiabatic passages between ...
The invariance properties of the action integral J = $\oint$ p dq are studied for the motion of char...
International audienceWe investigate the response of quasi-adiabatic particles to dynamical reconfig...
In many problems of classical mechanics and theoretical physics dynamics can be described as a slow ...
International audienceParticles traveling in sharp field reversals like in the Earth's magnetotail m...
We study dynamics of charged particle in current sheets with magnetic fluctuations. We...
We study the violation of the adiabaticity of the electron dynamics in a slowly varying magnetic fie...
We consider a slowly rotating rectangular billiard with slowly moving borders. We use methods of the...
AbstractDynamical properties are studied for escaping particles, injected through a hole in an oval ...
We consider here the classical problem of charge trapping by strong nonuniform magnetic fields (Van ...
Breakdown of adiabaticity of electrons crossing a collisionless shock front is analysed in details. ...
The motion of charged particles in slowly changing magnetic fields exhibits adiabatic invariance eve...
International audienceWe investigate dynamics of charged particles in current sheets with the sheare...
We consider free rotation of a body whose parts move slowly with respect to each other under the act...
We explore topological transitions in parameter space in order to enable adiabatic passages between ...
The invariance properties of the action integral J = $\oint$ p dq are studied for the motion of char...
International audienceWe investigate the response of quasi-adiabatic particles to dynamical reconfig...
In many problems of classical mechanics and theoretical physics dynamics can be described as a slow ...
International audienceParticles traveling in sharp field reversals like in the Earth's magnetotail m...
We study dynamics of charged particle in current sheets with magnetic fluctuations. We...
We study the violation of the adiabaticity of the electron dynamics in a slowly varying magnetic fie...
We consider a slowly rotating rectangular billiard with slowly moving borders. We use methods of the...
AbstractDynamical properties are studied for escaping particles, injected through a hole in an oval ...
We consider here the classical problem of charge trapping by strong nonuniform magnetic fields (Van ...
Breakdown of adiabaticity of electrons crossing a collisionless shock front is analysed in details. ...