Plasmas are believed to be possibly the most abundant form of ordinary matter in the
Universe, supporting a variety of the wave phenomena, while a dusty plasma is of interest as …

Quantum plasmas are an important topic in astrophysics and high pressure laboratory
physics for more than 50 years. In addition, many condensed matter systems, including the …

Cosmic plasmas are considered as the most abundant form of ordinary matter in the
Universe while observations of the cosmic dust in different regions provide an insight into …

In this paper, we explicate a method of quantum hydrodynamics (QHD) for the study of the
quantum evolution of a system of polarized particles. Although we focused primarily on the …

The properties of nonplanar (cylindrical and spherical) quantum dust ion-acoustic (QDIA)
solitary waves in an unmagnetized quantum dusty plasma, whose constituents are inertial …

Employing the quantum magnetohydrodynamic (QMHD) model, the basic properties of
magnetosonic waves were investigated in a magnetorotating quantum plasma. The …

In the present paper, we have investigated self-focusing of Gaussian laser beam in
relativistic ponderomotive (RP) cold quantum plasma. When de Broglie wavelength of …

Plasmas are known as the most abundant form of matter in the Universe. Nowadays, with
respect to the cosmic plasmas, considerable efforts have been put into investigating the …

In the present paper, we have employed the quantum dielectric response in thermal
quantum plasma to model relativistic self-focusing of Gaussian laser beam in a plasma. We …

The investigation of the nonlinear Langmuir associations in an ultrarelativistic, fully
degenerate quantum plasma, composed of stationary ions and warm electrons is …