Explores MHD waves, instabilities, magnetoconvection, and the impact of B-fields on convection.
Explores non-linear phenomena in plasma physics, focusing on ion acoustic waves and the Korteweg de Vries equation.
Introduces the basics of plasma physics, covering collective behavior, Debye length, and plasma conditions.
Covers plasma resistivity, Coulomb collisions, and momentum equation in plasma.
Explores plasma properties, long-range forces, and magnetization in astrophysical contexts.
Explores the Vlasov-Maxwell system for analyzing plasma waves in an unmagnetized plasma.
Explores microinstabilities in magnetized plasmas, focusing on turbulence and transport limitations in fusion reactors.
Covers Coulomb collisions and resistivity in plasma, highlighting their random walk nature.
Covers high-confinement regimes, induced current density, fusion plasma self-sustainment, and MHD ideal conditions.
Covers the concept of Landau damping in plasma physics, focusing on the interaction between waves and particles.
