Abstract:
In semiconductor quantum plasmas, the instability behavior of magneto-acoustic waves
is investigated. We derive the dispersion relation for magneto-acoustic wave behavior
ion implantation quantum plasmas semiconductors using Maxwell’s equations and the
quantum hydrodynamic model. In an external magnetic field, spin-based exchangecorrelation effects, Bohm tunneling potential, Fermi statistical pressure, and Landau
Quantization. The process of ion-implantation modifies the structure and characteristics of quantum semiconductors, which are advantageous for the creation of integrated
circuits (ICs), metallic nanoparticles, nanoclusters (NCs), digital and storage chips, and
their possible uses in a range of technological domains. The semiconductor medium
is developed in this work as a plasma system. Numerous factors have a major impact
on the growth rate and damping. Due to its many applications, the quantum aspects
of plasma physics opened up a new field of study. For example, collision frequency,
implantation density, tunneling effect, and external magnetic field. The effects of these
parameters have been depicted in graphical representation