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Gaussian excitations model for glass-former dynamics and thermodynamics
Dmitry Matyushov
, Charles Angell
Physics
Molecular Sciences, School of (SMS)
Research output
:
Contribution to journal
›
Article
›
peer-review
50
Scopus citations
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Medicine & Life Sciences
Thermodynamics
100%
Glass
79%
Entropy
78%
Vitrification
67%
Hot Temperature
63%
Kinetics
23%
Temperature
23%
Transition Temperature
22%
Theoretical Models
13%
Water
10%
Chemical Compounds
Heat Capacity
82%
Entropy
53%
Thermodynamics
50%
Glass
44%
Liquid
44%
Transition Temperature of Liquid Modification
35%
Glass Transition
34%
Kinetic Energy
18%
Energy
15%
Thermodynamic Property
14%
Excited State
13%
Compound Mobility
12%
Simulation
10%
Length
9%
Time
5%
Physics & Astronomy
thermodynamics
55%
glass
47%
specific heat
45%
liquids
43%
excitation
39%
entropy
34%
Gibbs equations
17%
dynamic models
12%
extrapolation
10%
energy
10%
thermodynamic properties
9%
kinetic energy
9%
transition temperature
9%
relaxation time
9%
low frequencies
8%
temperature dependence
7%
kinetics
6%
water
6%
predictions
6%
simulation
4%
temperature
3%