Stretched-exponential decay functions from a self-consistent model of
  dielectric relaxation

A.V. Milovanov; Anta; Balakrishnan; Capaccioli; Coffey; Dyre; Gefen; Giona; Glockle; Hilfer; Isichenko; J.J. Rasmussen; Jacobs; Jérome; K. Rypdal; Kaatz; Kohlrausch; Metzler; Metzler; Milovanov; Milovanov; Milovanov; Milovanov; Montroll; Nakayama; Oldham; Phillips; Saichev; Schneider; Shlesinger; Sokolov; Stauffer; Weiss; Weiss; Weitzner; Williams; Williams; Williams; Wintner; Wolfgang; Zaslavsky; Zaslavsky; Zaslavsky; Zelenyi

research

Stretched-exponential decay functions from a self-consistent model of dielectric relaxation

Authors: A.V. Milovanov
Anta
Balakrishnan
Capaccioli
Coffey
Dyre
Gefen
Giona
Glockle
Hilfer
Isichenko
J.J. Rasmussen
Jacobs
Jérome
K. Rypdal
Kaatz
Kohlrausch
Metzler
Metzler
Milovanov
Milovanov
Milovanov
Milovanov
Montroll
Nakayama
Oldham
Phillips
Saichev
Schneider
Shlesinger
Sokolov
Stauffer
Weiss
Weiss
Weitzner
Williams
Williams
Williams
Wintner
Wolfgang
Zaslavsky
Zaslavsky
Zaslavsky
Zelenyi
Publication date: 1 January 2007
Publisher: 'Elsevier BV'
Doi

Abstract

There are many materials whose dielectric properties are described by a stretched exponential, the so-called Kohlrausch-Williams-Watts (KWW) relaxation function. Its physical origin and statistical-mechanical foundation have been a matter of debate in the literature. In this paper we suggest a model of dielectric relaxation, which naturally leads to a stretched exponential decay function. Some essential characteristics of the underlying charge conduction mechanisms are considered. A kinetic description of the relaxation and charge transport processes is proposed in terms of equations with time-fractional derivatives.Comment: 17 page