Title :
Exact solution of the relativistic equation of motion of a charged particle driven by an elliptically polarized electromagnetic shaped pulse propagating along a static and homogeneous magnetic field
Author :
Ondarza, R. ; Gómez, F.
Author_Institution :
Dept. de Fisica, Inst. Nacional de Investigaciones Nucl., Mexico, Mexico
fDate :
4/1/2004 12:00:00 AM
Abstract :
The exact solution of the motion of a charged particle driven by an electromagnetic pulse shape of arbitrary polarization, propagating along the direction of a static and homogeneous external magnetic field is obtained from the relativistic force equation. The method of solution allows to solve, in terms of the invariant phase, the trajectory of the particles driven by an electromagnetic pulse of arbitrary amplitude modulated by a Gaussian-like envelope. The solutions reported in this work are of concern in the interaction physics of laser-produced plasmas, to study, for instance, the mechanisms of particle acceleration, plasma heating and radiative effects.
Keywords :
plasma electromagnetic wave propagation; plasma magnetohydrodynamics; plasma theory; relativistic plasmas; Gaussian-like envelope; charged particle; elliptically polarized electromagnetic shaped pulse; exact solution; laser-produced plasma; particle acceleration; plasma heating; plasma radiative effects; relativistic equation of motion; static homogeneous magnetic field; EMP radiation effects; Electromagnetic fields; Electromagnetic forces; Electromagnetic propagation; Electromagnetic transients; Electromagnetic wave polarization; Equations; Magnetic fields; Plasma accelerators; Pulse shaping methods; Elliptically polarized electromagnetic wave; relativistic equation of motion;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2004.826117
