"Instability of Thermally Conducting Self-Gravitating Systems"
written by Shaista Shaikh, Aiyub Khan,
published by Journal of Modern Physics, Vol.1 No.1, 2010
has been cited by the following article(s):
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[1] Effect of rotation on Jeans instability of magnetized radiative quantum plasma
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[2] Jeans instability of molecular cloud under the influence of electron inertia and fine Dust particles
International Journal of Scientific & Engineering Research, 2016
[3] Effect of rotation on the growth rate of magnetogravitational instability of a viscoelastic medium
Physica Scripta, 2014
[4] Effect of thermal conductivity on gravitational instability of quantum plasma having fine dust particles
QScience Connect, 2013
[5] Gravitational Instability of a Two Component Rotating Viscous Plasma under the Effect of Arbitrary Radiative Heat-Loss Functions and Electron Inertia
J. Pure Appl. & Ind. Phys, 2012
[6] Effect of electron inertia on radiative instability of rotating two-component gaseous plasma
Canadian Journal of Physics, 2012
[7] Magnetogravitational Vortex-Sheet Instability of Two Superposed Conducting Fluids in Porous Medium Under Strong Magnetic Field
Progress in Applied Mathematics, 2012
[8] Gravitational Instability of Thermally Conducting Fluid in a Variable Magnetic Field Through Porous Medium with Hall Current
Journal of Natural Sciences and Mathematics, 2012
[9] The gravitational instability of a non-uniformly rotating heat conducting medium in the presence of non-uniform magnetic field
Astrophysics and Space Science, 2011
[10] Analysis of Jeans Instability of Partially-Ionized Molecular Cloud under Influence of Radiative Effect and Electron Inertia
Adv. Studies Theor. Phys, 2011