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EAM calculations of the thermodynamics of amorphous copper
Thomas M. Brown,
James B. Adams
Research output
:
Contribution to journal
›
Article
›
peer-review
28
Scopus citations
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Engineering & Materials Science
Free energy
97%
Thermodynamics
70%
Copper
66%
Atoms
42%
Liquids
41%
Metallic glass
28%
Gibbs free energy
28%
Glass transition
23%
Molecular dynamics
23%
Superconducting transition temperature
22%
Crystalline materials
21%
Distribution functions
21%
Enthalpy
20%
Thermal expansion
20%
Entropy
17%
Glass
16%
Temperature
8%
Experiments
7%
Physics & Astronomy
embedded atom method
100%
free energy
66%
copper
58%
thermodynamics
55%
liquid phases
52%
Gibbs free energy
24%
metallic glasses
20%
glass transition temperature
19%
enthalpy
18%
thermal expansion
17%
distribution functions
16%
entropy
14%
molecular dynamics
14%
harmonics
14%
glass
11%
atoms
10%
temperature
6%
Chemical Compounds
Gibbs Free Energy
61%
Amorphous Material
56%
Thermodynamics
50%
Expansion Enthalpy
37%
Liquid
26%
Atomic Volume
26%
Pair Distribution Function
22%
Metallic Glass
21%
Thermal Expansion
17%
Glass Transition Temperature
13%
Entropy
13%
Molecular Dynamics
12%
Glass
11%
Purity
8%