An effort has been undertaken to understand the nature of one type of non-exponential relaxation, namely Cole-Davidson relaxation. Toward this end, a model of relaxation as a self-similar process is proposed. An equation containing operators of fractional integration and differentiation is obtained and solved, which the relaxation function obeys in this case. © 1997 American Institute of Physics
The relaxation properties of dielectric materials are described, in the frequency domain, according ...
In this short paper, we outline the basic results obtained for dielectric relaxation based on the fr...
Based on the rather general decoupling procedure that reduces a set of micromotions to the averaged ...
An effort has been undertaken to understand the nature of one type of non-exponential relaxation, na...
In order to describe relaxation processes not obeying an exponential law a model of a self-similar r...
A model of the self-similar process of relaxation is given, and a method of derivation of the kineti...
In this paper a general equation for the relaxation mechanism in dielectrics is derived. The lowerin...
Based on a self-similar spatial-temporal structure of the relaxation process, we construct a microsc...
The micro/mesoscopic theory of dielectric relaxation has been developed. Based on the fractional kin...
Using the memory conception developed in the framework of the Mori-Zwanzig formalism, the kinetic eq...
It has been shown that anomalous relaxation in dielectrics can be described in terms of equations wi...
Recently fractional calculus has been successfully applied in the description of complex dynamics an...
The relaxation properties of dielectric materials are described, in the frequency domain, according ...
In this short paper, we outline the basic results obtained for dielectric relaxation based on the fr...
Based on the rather general decoupling procedure that reduces a set of micromotions to the averaged ...
An effort has been undertaken to understand the nature of one type of non-exponential relaxation, na...
In order to describe relaxation processes not obeying an exponential law a model of a self-similar r...
A model of the self-similar process of relaxation is given, and a method of derivation of the kineti...
In this paper a general equation for the relaxation mechanism in dielectrics is derived. The lowerin...
Based on a self-similar spatial-temporal structure of the relaxation process, we construct a microsc...
The micro/mesoscopic theory of dielectric relaxation has been developed. Based on the fractional kin...
Using the memory conception developed in the framework of the Mori-Zwanzig formalism, the kinetic eq...
It has been shown that anomalous relaxation in dielectrics can be described in terms of equations wi...
Recently fractional calculus has been successfully applied in the description of complex dynamics an...
The relaxation properties of dielectric materials are described, in the frequency domain, according ...
In this short paper, we outline the basic results obtained for dielectric relaxation based on the fr...
Based on the rather general decoupling procedure that reduces a set of micromotions to the averaged ...