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Particle-In-Cell observations of Brillouin scattering for laser interacting with magnetized overdense plasma

One dimensional Particle-in-cell simulations using OSIRIS-4.0 has been conducted to study the interaction of a laser electromagnetic pulse with an overdense magnetized plasma target. The external magnetic field has been chosen to be directed along the laser propagation direction. This geometry supports the propagation of right (R) and left (L) circularly polarised electromagnetic waves in the plasma. The laser pulse is allowed to propagate inside the plasma when its frequency falls in the pass band of the dispersion curves of L and/or R waves. The strength of the applied external magnetic field is chosen as a parameter to ensure that the laser frequency lies in the appropriate pass band. It is demonstrated that for all possible polarization of the incident laser, parametric process involving a scattered Electromagnetic wave and an electrostatic mode occur. The parametric process has been identified as that due to the Brillouin back scattering process.

preprint2022arXivOpen access
Laxman Prasad GoswamiRohit JunejaDhalia TrishulSrimanta MaitySathi DasAmita Das
physics.plasm-ph
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Laxman Prasad GoswamiRohit JunejaDhalia TrishulSrimanta MaitySathi DasAmita Das

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