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Complex Dynamics of Glass-Forming Liquids: A Mode-Coupling Theory
Wolfgang Götze
TUM Emeriti of Excellence
Research output
:
Book/Report
›
Book
›
peer-review
908
Scopus citations
Overview
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Dive into the research topics of 'Complex Dynamics of Glass-Forming Liquids: A Mode-Coupling Theory'. Together they form a unique fingerprint.
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Keyphrases
Coupling Constant
100%
Complex Dynamics
100%
Coupled Mode Theory
100%
Glass-forming Liquids
100%
Mode Coupling
66%
Correlation Function
66%
Leading Order
66%
Coupled Equations
33%
Nonlinearity
33%
Polynomial Coefficients
33%
Equations of Motion
33%
Polynomial Expression
33%
Bifurcation
33%
Glass Transition
33%
Small Frequency
33%
Colloids
33%
Function Description
33%
Asymptotic Expansion
33%
Experimental Dynamics
33%
Condensed Matter
33%
Retardation Effect
33%
Force Fluctuation
33%
Cage Effect
33%
Glassy Dynamics
33%
Fixed Point Equation
33%
Asymptotic Correction
33%
Real Roots
33%
Liquid Glass
33%
Real Polynomial
33%
Molecular Dynamics Simulation Study
33%
Mathematics
Polynomial
100%
Asymptotics
100%
Complex Dynamic
100%
Fixed Points
50%
Asymptotic Expansion
50%
Simulation Study
50%
Point Equation
50%
Real Polynomial
50%
Polynomial Expression
50%
Real Root
50%
Nonlinearity
50%
Flat Surface
50%
Engineering
Singularities
100%
Leading Order
100%
Transients
50%
Colloid
50%
Coupling Equation
50%
Retardation Effect
50%
Real Root
50%
Frequency Separation
50%
Fixed Points
50%
Asymptotic Expansion
50%
Flat Surface
50%
Nonlinearity
50%
Chemistry
Relaxation
100%
Glass Transition
100%
Cage Effect
100%
Molecular dynamics simulation
100%
Physics
Coupled Mode
100%
Coupling Constant
60%
Molecular Dynamics
20%
Condensed Matter Physics
20%
Equation of Motion
20%
Flat Surface
20%
Transients
20%
Chemical Engineering
Colloid
100%