Glass Transition for Driven Granular Fluids,

Kranz, W.T. and Sperl, Matthias and Zippelius, A. (2010) Glass Transition for Driven Granular Fluids,. Physical Review Letters. DOI: 10.1103/PhysRevLett.104.225701.

Full text not available from this repository.

Official URL: http://link.aps.org/doi/10.1103/PhysRevLett.104.225701

Abstract

We investigate the dynamics of a driven system of dissipative hard spheres within mode-coupling theory. The dissipation is modeled by normal restitution, and driving is applied to individual particles in the bulk. In such a system, a glass transition is predicted for a finite transition density. With increasing dissipation, the transition shifts to higher densities. Despite the strong driving at high dissipation, the transition persists up to the limit of totally inelastic normal restitution.

Document Type:

Article

Title:

Glass Transition for Driven Granular Fluids,

Authors:

Authors	Institution or Email of Authors
Kranz, W.T.
Sperl, Matthias	matthias.sperl@dlr.de
Zippelius, A.

Date:

10 May 2010

Journal or Publication Title:

Physical Review Letters

Refereed publication:

Yes

In Open Access:

In SCOPUS:

Yes

In ISI Web of Science:

Yes

DOI:

10.1103/PhysRevLett.104.225701

Status:

Published

Keywords:

granular mode-coupling theory

HGF - Research field:

Aeronautics, Space and Transport

HGF - Program:

Space

HGF - Program Themes:

W SY - Technik für Raumfahrtsysteme

DLR - Research area:

Space

DLR - Program:

W SY - Technik für Raumfahrtsysteme

DLR - Research theme (Project):

W - Projekt MAPHEUS (old)

Location:

Köln-Porz

Institutes and Institutions:

Institute of Materials Physics in Space

Deposited By:

Matthias Sperl

Deposited On:

08 Nov 2010 08:21

Last Modified:

07 Feb 2013 20:39

Repository Staff Only: item control page