Lda. Siebbeles et Ya. Berlin, QUANTUM MOTION OF PARTICLES ALONG ONE-DIMENSIONAL PATHWAYS WITH STATIC AND DYNAMIC ENERGY DISORDER, Chemical physics, 238(1), 1998, pp. 97-107
We have theoretically studied the competitive effects of static and dy
namic energy disorder on the quantum-mechanical propagation of charge
carriers and excitations along one-dimensional pathways consisting of
coupled classical oscillators. Both the probability to survive in the
initially occupied state and the propagation along the chain were inve
stigated. By using the simple tight-binding band approximation, we hav
e demonstrated that the propagation proceeds in two stages. At short t
imes the particles move ballistically, while at larger times their pro
pagation becomes close to diffusive with increasing dispersion for a h
igher degree of static disorder. The existence of two stages is due to
distinct effects of static and dynamic disorder on the particle motio
n. While the static disorder always creates a 'friction' for the parti
cle propagation, the dynamic disorder can either facilitate or suppres
s the inter-site transfer depending on the degree of static disorder.
It has been shown that the competition of these effects gives rise to
a behaviour of the particle diffusivity typical for the metal-insulato
r transition. (C) 1998 Elsevier Science B.V. All rights reserved.