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An Ising Model for Supercooled Liquids and the Glass Transition
Ralph V. Chamberlin
Physics
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Dive into the research topics of 'An Ising Model for Supercooled Liquids and the Glass Transition'. Together they form a unique fingerprint.
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Mathematics
Supercooled Liquid
100%
Glass Transition
92%
Ising Model
62%
Glass
32%
Energy
21%
Liquid
20%
Mean-field Theory
15%
Conservation
10%
Fluctuations
10%
Divergence
9%
Finite Size Effects
8%
Thermal Properties
8%
Nuclear Magnetic Resonance
8%
Critical Temperature
7%
Specific Heat
7%
Dynamic Properties
7%
Response Time
6%
Equilibrium Distribution
6%
Relaxation Time
6%
Pathway
6%
Hysteresis
6%
Angular Momentum
6%
Activation
6%
Alignment
6%
Molecules
5%
Time Scales
4%
Monte Carlo Simulation
4%
Vary
4%
Entropy
4%
Interaction
3%
Simulation
3%
Model
1%
Engineering & Materials Science
Ising model
85%
Glass transition
61%
Liquids
36%
Glass
30%
Mean field theory
25%
Conservation
14%
Energy barriers
11%
Relaxation time
10%
Angular momentum
10%
Nuclear magnetic resonance
9%
Freezing
8%
Specific heat
8%
Molecules
7%
Hysteresis
7%
Thermodynamic properties
7%
Chemical activation
6%
Entropy
6%
Temperature
6%
Chemical Compounds
Ising Model
86%
Glass Transition
57%
Liquid
29%
Mean-Field Theory
22%
Energy
14%
Angular Momentum
11%
Glass
10%
Critical Temperature
9%
Bond Energy
8%
Time
8%
Monte Carlo Method
8%
Hysteresis
7%
Energy Barrier
7%
Electron Spin
6%
Entropy
6%
Heat
5%
Amorphous Material
5%
NMR Spectroscopy
5%
Simulation
4%
Reaction Yield
3%
Physics & Astronomy
Ising model
54%
glass
31%
liquids
28%
conservation
10%
divergence
9%
energy
9%
amorphous materials
6%
ingredients
5%
freezing
5%
dynamic characteristics
5%
critical temperature
4%
angular momentum
4%
plots
4%
thermodynamic properties
4%
nuclear magnetic resonance
4%
activation
4%
relaxation time
4%
specific heat
4%
alignment
4%
hysteresis
4%
simulation
4%
entropy
3%
molecules
2%
interactions
2%
temperature
1%