AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As a result, we get a parabolic equation?: namely the heat equation (équation de chaleur). An other approach in the modern theory, is to assume that the heat flux satisfies Cattaneo's law and instead we obtain a hyperbolic system describing the propagation of the hear. Such a phenomenon, that occurs in some materials, is called propagation guided by Second Sound
Motivated by the recent work of Christov and Jordan, ("Heat Conduction Paradox Involving Second-Soun...
AbstractIn earlier work Coleman, Fabrizio, and Owen observed that if a constitutive equation for the...
An analytical study of second-sound phenomena, specifically, temperature-rate and traveling waves, i...
AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As ...
The heat propagation task described by the Fourier’s law leads to the parabolic differential equatio...
Returning to Manne et al. (2000), wherein a class of hyperbolic reaction–diffusion-acoustic models i...
The paper deals with the problem of modification of Fourier Law. After a short summary on the basic ...
We investigate the propagation of mechanical and thermal waves in solids at cryogenic temperatures. ...
In papers [1] and[2] of 1982, Coleman, Fabrizio and Owen gave a derivation of implications of the se...
Wave propagation and heat distribution are both governed by second order linear constant coefficient...
A generalized non linear Maxwell-Cattaneo equation is used to study shock waves propagating in a rig...
The nonlinear second-order parabolic equation with two variables is considered in the article. Under...
J-B. J. FOURIER'S immensely influential treatise Theorie Analytique de la Chaleur [21J, and the subs...
A thermodynamic model of second sound propagation in rigid solids like dielectric crystals is propos...
A generalized non linear Maxwell-Cattaneo equation is used to study shock waves propagating in a rig...
Motivated by the recent work of Christov and Jordan, ("Heat Conduction Paradox Involving Second-Soun...
AbstractIn earlier work Coleman, Fabrizio, and Owen observed that if a constitutive equation for the...
An analytical study of second-sound phenomena, specifically, temperature-rate and traveling waves, i...
AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As ...
The heat propagation task described by the Fourier’s law leads to the parabolic differential equatio...
Returning to Manne et al. (2000), wherein a class of hyperbolic reaction–diffusion-acoustic models i...
The paper deals with the problem of modification of Fourier Law. After a short summary on the basic ...
We investigate the propagation of mechanical and thermal waves in solids at cryogenic temperatures. ...
In papers [1] and[2] of 1982, Coleman, Fabrizio and Owen gave a derivation of implications of the se...
Wave propagation and heat distribution are both governed by second order linear constant coefficient...
A generalized non linear Maxwell-Cattaneo equation is used to study shock waves propagating in a rig...
The nonlinear second-order parabolic equation with two variables is considered in the article. Under...
J-B. J. FOURIER'S immensely influential treatise Theorie Analytique de la Chaleur [21J, and the subs...
A thermodynamic model of second sound propagation in rigid solids like dielectric crystals is propos...
A generalized non linear Maxwell-Cattaneo equation is used to study shock waves propagating in a rig...
Motivated by the recent work of Christov and Jordan, ("Heat Conduction Paradox Involving Second-Soun...
AbstractIn earlier work Coleman, Fabrizio, and Owen observed that if a constitutive equation for the...
An analytical study of second-sound phenomena, specifically, temperature-rate and traveling waves, i...