Add to ORKGThe quantum electrodynamical (QED) short wavelength correction on plasma wave propagation for a non-relativistic quantum plasma is investigated. A general dispersion relation for a thermal multi-component quantum plasma is derived. It is found that the classical dispersion relation for any wave mode can be modified to include quantum and short wavelength QED effects by simple substitutions of the thermal velocity and the plasma frequency. Furthermore, the dispersion relation has been modified to include QED effects of strong magnetic fields. It is found that strong magnetic fields together with the short wavelength QED correction will induce dispersion both in vacuum and in otherwise non-dispersive plasma modes. Applications to laboratory a...
We develop a semirelativistic quantum fluid theory based on the expansion of the Dirac Hamiltonian t...
The study of electromagnetic wave propagation in magnetized plasmas is of paramount importance in va...
Using thermal field theory, we derive simple analytic expressions for the spectral density of photon...
The effect of short wavelength quantum electrodynamic (QED) correction on plasma-wave propagation is...
Quantum plasmas have received considerable attention in recent years. The quantum effects become im...
Dispersion relations for elliptically polarized extraordinary is well as linearly polarized ordinary...
The theory of quantum electrodynamics (QED) was born out of an attempt to merge Einsteins theory of ...
We examine wave propagation and the formation of shocks in strongly magnetized plasmas by applying a...
Some results on the propagation of undamped wave modes in fully relativistic, magnetoactive plasma a...
A relativistic quantum-hydrodynamic plasma model is proposed, to model the propagation of electrosta...
Abstract In this research, the dispersion properties of magneto-acoustic waves in a plasma in the p...
A generalized set of nonlinear electromagnetic quantum hydrodynamic (QHD) equations is derived for a...
In electron-positron plasmas some of the plasma modes are decoupled due to the equal charge to mass ...
using the quantum \ud hydrodynamic formulation. Several linear and nonlinear waves in \ud unif...
Quantum Plasmadynamics is a synthesis of the kinetic theory of plasmas and quantum electrodynamics (...
We develop a semirelativistic quantum fluid theory based on the expansion of the Dirac Hamiltonian t...
The study of electromagnetic wave propagation in magnetized plasmas is of paramount importance in va...
Using thermal field theory, we derive simple analytic expressions for the spectral density of photon...
The effect of short wavelength quantum electrodynamic (QED) correction on plasma-wave propagation is...
Quantum plasmas have received considerable attention in recent years. The quantum effects become im...
Dispersion relations for elliptically polarized extraordinary is well as linearly polarized ordinary...
The theory of quantum electrodynamics (QED) was born out of an attempt to merge Einsteins theory of ...
We examine wave propagation and the formation of shocks in strongly magnetized plasmas by applying a...
Some results on the propagation of undamped wave modes in fully relativistic, magnetoactive plasma a...
A relativistic quantum-hydrodynamic plasma model is proposed, to model the propagation of electrosta...
Abstract In this research, the dispersion properties of magneto-acoustic waves in a plasma in the p...
A generalized set of nonlinear electromagnetic quantum hydrodynamic (QHD) equations is derived for a...
In electron-positron plasmas some of the plasma modes are decoupled due to the equal charge to mass ...
using the quantum \ud hydrodynamic formulation. Several linear and nonlinear waves in \ud unif...
Quantum Plasmadynamics is a synthesis of the kinetic theory of plasmas and quantum electrodynamics (...
We develop a semirelativistic quantum fluid theory based on the expansion of the Dirac Hamiltonian t...
The study of electromagnetic wave propagation in magnetized plasmas is of paramount importance in va...
Using thermal field theory, we derive simple analytic expressions for the spectral density of photon...