A thermodynamic model of second sound propagation in rigid solids like dielectric crystals is proposed: this is achieved within !he framework of extended irreversible thermodynamics. The independent variables are the temperature, the heat flux vector plus a supplementary variable that is identified as the flux of the heat flux; to include non-local effects, the constitutive equations are assumed to depend on the gradients of the temperature and the heat flux vector. After establishing the evolution equations governing the behaviour of the basic variables in the course of space and time, the entropy production is calculated and a generalized Gibbs equation is derived. The present model is shown to be rather general as it encompasses the part...
AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As ...
Nonlocal transport equations for the phonon and the electron contributions to the heat flux, and for...
We analyze the role played by nonlocal and nonlinear effects in the propagation of thermal and elast...
We investigate the propagation of mechanical and thermal waves in solids at cryogenic temperatures. ...
peer reviewedWe propose a variational principle applicable to the heat-transport equations derived s...
The heat propagation task described by the Fourier’s law leads to the parabolic differential equatio...
AbstractIn earlier work Coleman, Fabrizio, and Owen observed that if a constitutive equation for the...
A mesoscopic thermodynamic theory of fast phenomena is proposed. In principle, such a description sh...
A general non-linear and non-local heat transport equation is proposed in view to study heat conduc...
We investigate a recently proposed model of second-sound at the nanoscale—One that goes beyond the u...
Recently we have studied heat propagation in certain solids at cryogenic temperatures in order to id...
We propose a description of heat conduction in rigid solids in which the classical state space of ex...
Returning to Manne et al. (2000), wherein a class of hyperbolic reaction–diffusion-acoustic models i...
The influence of weakly nonlocal effects on the speed of second sound along or against the direction...
We propose a description of heat conduction in rigid solids in which the classical state space of e...
AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As ...
Nonlocal transport equations for the phonon and the electron contributions to the heat flux, and for...
We analyze the role played by nonlocal and nonlinear effects in the propagation of thermal and elast...
We investigate the propagation of mechanical and thermal waves in solids at cryogenic temperatures. ...
peer reviewedWe propose a variational principle applicable to the heat-transport equations derived s...
The heat propagation task described by the Fourier’s law leads to the parabolic differential equatio...
AbstractIn earlier work Coleman, Fabrizio, and Owen observed that if a constitutive equation for the...
A mesoscopic thermodynamic theory of fast phenomena is proposed. In principle, such a description sh...
A general non-linear and non-local heat transport equation is proposed in view to study heat conduc...
We investigate a recently proposed model of second-sound at the nanoscale—One that goes beyond the u...
Recently we have studied heat propagation in certain solids at cryogenic temperatures in order to id...
We propose a description of heat conduction in rigid solids in which the classical state space of ex...
Returning to Manne et al. (2000), wherein a class of hyperbolic reaction–diffusion-acoustic models i...
The influence of weakly nonlocal effects on the speed of second sound along or against the direction...
We propose a description of heat conduction in rigid solids in which the classical state space of e...
AbstractIn the classical theory of heat propagation, the flux is usually given by Newton's laws. As ...
Nonlocal transport equations for the phonon and the electron contributions to the heat flux, and for...
We analyze the role played by nonlocal and nonlinear effects in the propagation of thermal and elast...