Linear Properties of Electrostatic Wave in Two-Component Fermi Plasma

Shraddha Sahana; Spandita Mitra; Swarniv Chandra; Suman Pramanick

arXiv:2101.00510·physics.plasm-ph·January 5, 2021·1 cites

Linear Properties of Electrostatic Wave in Two-Component Fermi Plasma

Shraddha Sahana, Spandita Mitra, Swarniv Chandra, Suman Pramanick

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TL;DR

This paper investigates the linear electrostatic wave properties in a two-component Fermi plasma consisting of electrons and ions, using a quantum-hydrodynamic model to derive and analyze the dispersion relation.

Contribution

It introduces a quantum-hydrodynamic approach to derive the dispersion relation for electrostatic waves in a two-component Fermi plasma.

Findings

01

Dispersion relation depends on plasma parameters

02

Quantum effects influence wave behavior

03

Linear properties characterized for electron-ion plasma

Abstract

We study the two component Fermi plasma. Two components are electrons and ions. Using the Quantum-Hydrodynamic model (QHD), we study the linear properties of electrostatic wave. We derive the linear dispersion relation for the system from dynamical governing equations for the system. We study the dependence of linear-dispersion relation on various parameters of the system.

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Taxonomy

TopicsDust and Plasma Wave Phenomena · Ionosphere and magnetosphere dynamics · Magnetic confinement fusion research