JOURNAL ARTICLE
Mode-coupling theory of the glass transition in colloidal systems
Year: 1991 Journal: Physical Review A Vol: 44 (12)Pages: 8215-8219 Publisher: American Physical Society
Abstract
Within a mode-coupling approximation we investigate the influence of the short-time dynamics of colloidal fluids on the glass-transition scenario. We assume Brownian dynamics, neglect hydrodynamic interactions, and follow approximations used to construct a mode-coupling theory (MCT) for structural relaxation in dense atomic fluids with underlying Newtonian dynamics. This approach predicts the same scenario for the kinetic glass transition in colloidal systems as the MCT for atomic systems. We compare this result with recent computer-simulation studies of the glass transition for atomic and colloidal liquids.
Keywords:
Physics Mode coupling Brownian dynamics Glass transition Coupling (piping) Relaxation (psychology) Colloid Statistical physics Brownian motion Mode (computer interface) Soft matter Dynamics (music) Chemical physics Quantum mechanics Physical chemistry Materials science Chemistry Nuclear magnetic resonance
Metrics
134
Cited By
2.86
FWCI (Field Weighted Citation Impact)
29
Refs
0.91
Citation Normalized Percentile
Is in top 1%
Is in top 10%
Citation History
Topics
Material Dynamics and Properties
Physical Sciences → Materials Science → Materials Chemistry
Phase Equilibria and Thermodynamics
Physical Sciences → Engineering → Biomedical Engineering
Thermodynamic properties of mixtures
Physical Sciences → Chemical Engineering → Fluid Flow and Transfer Processes
Related Documents
JOURNAL ARTICLE
Colloidal Glass Transition: Beyond Mode-Coupling Theory
Journal: Physical Review Letters Year: 2003 Vol: 90 (22)Pages: 228301-228301
BOOK-CHAPTER
Glass transition in colloidal hard spheres: mode-coupling theory analysis
Year: 2001 Pages: 304-307
JOURNAL ARTICLE
High-Order Mode-Coupling Theory for the Colloidal Glass Transition
Journal: Physical Review Letters Year: 2005 Vol: 95 (7)Pages: 078301-078301
JOURNAL ARTICLE
Glass transition in colloidal hard spheres: Mode-coupling theory analysis
Journal: Physical Review Letters Year: 1993 Vol: 70 (18)Pages: 2766-2769
JOURNAL ARTICLE
Comment on ‘‘Glass transition in colloidal hard spheres: Mode-coupling theory analysis’’
Xiao Cheng ZengDaniel KivelsonGilles Tarjus
Journal: Physical Review Letters Year: 1994 Vol: 72 (11)Pages: 1772-1772