Abstract
This paper is a continuation of our previous work, where the new probabilistic model based directly on the reaction picture of relaxation was introduced and a general relaxation equation was derived. Here we show the universal character of distributions of damping rates and waiting times used in this model. Moreover, we discuss in detail a physical significance of the response function derived as a solution of the general relaxation equation. (author). 23 refs, 4 figs.
Citation Formats
Weron, K.
A probabilistic mechanism hidden behind the universal power law for dielectric relaxation. 2 - Discussion of the response function.
IAEA: N. p.,
1991.
Web.
Weron, K.
A probabilistic mechanism hidden behind the universal power law for dielectric relaxation. 2 - Discussion of the response function.
IAEA.
Weron, K.
1991.
"A probabilistic mechanism hidden behind the universal power law for dielectric relaxation. 2 - Discussion of the response function."
IAEA.
@misc{etde_10113449,
title = {A probabilistic mechanism hidden behind the universal power law for dielectric relaxation. 2 - Discussion of the response function}
author = {Weron, K}
abstractNote = {This paper is a continuation of our previous work, where the new probabilistic model based directly on the reaction picture of relaxation was introduced and a general relaxation equation was derived. Here we show the universal character of distributions of damping rates and waiting times used in this model. Moreover, we discuss in detail a physical significance of the response function derived as a solution of the general relaxation equation. (author). 23 refs, 4 figs.}
place = {IAEA}
year = {1991}
month = {Aug}
}
title = {A probabilistic mechanism hidden behind the universal power law for dielectric relaxation. 2 - Discussion of the response function}
author = {Weron, K}
abstractNote = {This paper is a continuation of our previous work, where the new probabilistic model based directly on the reaction picture of relaxation was introduced and a general relaxation equation was derived. Here we show the universal character of distributions of damping rates and waiting times used in this model. Moreover, we discuss in detail a physical significance of the response function derived as a solution of the general relaxation equation. (author). 23 refs, 4 figs.}
place = {IAEA}
year = {1991}
month = {Aug}
}