Physics & Astronomy
replicas
100%
proteins
80%
peptides
80%
tempering
67%
simulation
65%
aqueous solutions
48%
solvation
35%
molecular dynamics
34%
folding
27%
complex systems
25%
free energy
24%
helices
22%
weight (mass)
21%
solid phases
21%
oligomers
20%
water
19%
principal components analysis
17%
random walk
17%
sampling
16%
histograms
15%
amino acids
15%
interactions
13%
recursive functions
13%
dihedral angle
13%
ice
13%
energy
13%
liquids
12%
lysozyme
12%
potential energy
12%
Monte Carlo method
12%
atoms
11%
alanine
11%
transition temperature
11%
specific heat
11%
coils
11%
trimers
10%
temperature
10%
structural stability
10%
hydrogen bonds
9%
slits
9%
eigenvalues
8%
temperature dependence
8%
formulations
8%
glycine
8%
density functional theory
7%
trajectories
7%
melting
6%
liquid phases
6%
vapor phases
6%
ideal gas
6%
Chemical Compounds
Simulation
91%
Monte Carlo Method
52%
Peptide
45%
Solvation
44%
Gibbs Free Energy
35%
Tempering
34%
Protein Folding
32%
Molecular Dynamics
32%
Protein
27%
Aqueous Solution
26%
Energy
19%
Density Functional Theory
17%
Gas
17%
Statistical Ensemble
16%
Biopolymer
15%
Hydrogen Bond
14%
Liquid-Solid Phase Equilibrium
13%
Canonical Ensemble
13%
Physical Quantity
13%
Alanine
13%
Glycine
12%
Dihedral Angle
12%
Frustrated System
11%
Potential Energy
11%
Sampling
11%
Application
10%
Surface Free Energy
10%
Monolayer
10%
Annealing
9%
Trimer
8%
Protein Structure
8%
Diffusion
8%
Random Walk
8%
Solute
8%
Amino-Acid Residue
8%
Time
8%
Thermodynamics
7%
Particle Theory
7%
Molecule
7%
Acid
7%
C-Peptide
6%
Molecular Cluster
6%
Solid-Solid Phase Transition
6%
Weight
6%
Phase Space
6%
Pressure
6%
Statistical Mechanics
6%
Solvent Effect
6%
Melting
5%
Energy State
5%
Engineering & Materials Science
Peptides
59%
Proteins
47%
Solvation
31%
Conformations
29%
Molecular dynamics
29%
Hydrogen bonds
24%
Free energy
21%
Potential energy
20%
Tempering
20%
Protein folding
18%
Liquids
18%
Ribonucleases
16%
Temperature
15%
Water
15%
Amino acids
13%
Nanopores
13%
Computer simulation
13%
Atoms
12%
Biopolymers
12%
Monolayers
11%
Phase equilibria
10%
Monte Carlo methods
9%
Melting point
9%
Molecules
9%
Eigenvalues and eigenfunctions
9%
Ice
9%
Simulated annealing
9%
Melting
8%
Electron energy levels
7%
Dihedral angle
6%
Superconducting transition temperature
6%
Specific heat
6%
Freezing
5%
Specifications
5%
Enzymes
5%
