Modulation of electromagnetic waves in a relativistic degenerate plasma at finite temperature

Abstract: We study the modulational instability (MI) of a linearly polarized electromagnetic (EM) wave envelope in an intermediate regime of relativistic degenerate plasmas at a finite temperature (T≠0) where the thermal energy (KBT) and the rest-mass energy (mec2) of electrons do not differ significantly, i.e., βe≡KBT/mec2≲ (or ≳) 1, but the Fermi energy (KBTF) and the chemical potential energy (μe) of electrons are still a bit higher than the thermal energy, i.e., TF>T and ξe=μe/KBT≳1. Starting from a set of re… Show more

“…The study of electromagnetic wave propagation through plasma is definitely significant for fundamental understanding. However, this particular research has a wide range of applications in fusion research, laserplasma interaction, radio-astronomy, space research, plasma accelerator, and so on [56][57][58][59][60][61][62][63][64][65]. Based on the theory described here, an experimental design might be proposed to observe the coupling between em wave and electron acoustic wave.…”

Nonlinear interaction of electromagnetic wave with electron acoustic wave in plasma

“…The study of electromagnetic wave propagation through plasma is definitely significant for fundamental understanding. However, this particular research has a wide range of applications in fusion research, laserplasma interaction, radio-astronomy, space research, plasma accelerator, and so on [56][57][58][59][60][61][62][63][64][65]. Based on the theory described here, an experimental design might be proposed to observe the coupling between em wave and electron acoustic wave.…”

Nonlinear interaction of electromagnetic wave with electron acoustic wave in plasma

Investigation of the propagation of coupled laser pulses in a plasma