Aiyub Khan scite author profile

The flow of an infinitely extending homogenous thermally conducting plasma permeated by a variable magnetic field is considered. The combined effect of several physical parameters, namely Hall currents, finite conductivity, ion viscosity and thermal conductivity on plasma instability is studied in the framework of Tsallis statistics. A new Jeans Criterion is derived, which depends explicitly on the nonextensive parameter q. The standard values are obtained in the limiting case q = 1.

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Double Diffusive Instability in a Vertical Layer of a Porous Medium

Khan

Zebib

1981

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Modulated Centrifugal Convection in a Vertical Rotating Porous Layer Distant from the Axis of Rotation

Bhadauria

Khan

2008

Transp Porous Med

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The effect of rotation speed modulation on the onset of centrifugally driven convection has been studied using linear stability analysis. Darcy flow model with zerogravity is used to describe the flow. The perturbation method is applied to find the correction in the critical Rayleigh number. It is found that by applying modulation of proper frequency to the rotation speed, it is possible to delay or advance the onset of centrifugal convection.

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Jeans’ Gravitational Instability of a Thermally Conducting, Unbounded, Partially Ionized Plasma

Shaikh

Khan

Bhatia

2006

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The gravitational instability of an infinitely extending homogenous, partially ionized plasma, permeated by an oblique magnetic field, has been studied to investigate the effects of Hall currents, finite conductivity, viscosity, collision with neutrals and thermal conductivity on the growth rate of the disturbance. The dispersion relation obtained has been solved numerically, and it has been found that Hall currents and collision with neutrals have a destabilizing influence on the growth rate while the other mechanisms reinforce the gravitational instability. Jeans' criterion, derived within a purely hydrodynamic framework, has been rediscussed along a nonextensive kinetic theory. A new Jeans' criterion was deduced, which depends on the nonextensive parameter q and the standard Jeans' wave number is recovered in the limiting case q = 1.

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Aiyub Khan

Jeans' gravitational instability of a thermally conducting plasma

Stability of thermally conducting plasma in a variable magnetic field

Double Diffusive Instability in a Vertical Layer of a Porous Medium

Modulated Centrifugal Convection in a Vertical Rotating Porous Layer Distant from the Axis of Rotation

Jeans’ Gravitational Instability of a Thermally Conducting, Unbounded, Partially Ionized Plasma

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