Computational Investigation of SCL Sheath with two Dust Species

There have been extensive analytical and computational investigations of plasma instabilities to comprehend potential processes for solely rising magnetic fields in the presence of mobile/immobile ions and (or) cold/mildly heated electron beams. Through the integration of kinetic, fluid, and magnetohydrodynamic (MHD) techniques, a theory has been constructed to correctly explain both rapid and slow processes in plasmas. Inertial confinement fusion, Gamma-ray bursts (GRBs), and the magnetospheres of pulsars are all offered as examples of specific applications. New and pure growth modes in quantum-plasmas, a fast-developing emergent domain of plasma physics, have also been the subject of our research. We have examined an oscillatory instability involving dust acoustic-like waves owing to a relative drift between the ions and the charged dust particles in quantum dusty magneto-plasma. Due to their presence in the plasma, nano-dusts modify the sheath dynamics by influencing the Poisson equation, which establishes the sheath plasma potential.
Keywords SCL Sheet, MHD, Dust Species, plasma