NpH ensemble: Difference between revisions
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==Related tags and articles== | ==Related tags and articles== | ||
[[Molecular dynamics calculations|Molecular-dynamics calculations]], {{TAG|ISIF}}, {{TAG|MDALGO}}, [[:Category:Ensembles|Ensembles]] | [[Molecular dynamics calculations|Molecular-dynamics calculations]], {{TAG|ISIF}}, {{TAG|MDALGO}}, {{TAG|LANGEVIN_GAMMA}}, {{TAG|LANGEVIN_GAMMA_L}}, [[:Category:Ensembles|Ensembles]] | ||
[[Category:Molecular dynamics]][[Category:Ensembles]][[Category:Thermostats]] | [[Category:Molecular dynamics]][[Category:Ensembles]][[Category:Thermostats]] |
Revision as of 15:27, 11 August 2022
The NpH ensemble (isoenthalpic–isobaric ensemble) is a statistical ensemble that is used to study material properties under the conditions of a constant particle number N, a pressure p fluctuating around an equilibrium pressure and a enthalpy H fluctuating around an equilibrium value . This page describes how to sample the NpH ensemble from a molecular-dynamics run.
Instructions for setting up a NpH ensemble
To run a NpH molecular-dynamics simulation the Langevin thermostat has to be used. The LANGEVIN_GAMMA and LANGEVIN_GAMMA_L have to be zero because otherwise a NpT ensemble will be simulated. By setting the tag LANGEVIN_GAMMA=0 the friction term and the stochastic term of the Langevin thermostat will be zero, such that the velocities are determined by the Hellmann-Feynman forces or Machine-learned force fields only. Setting the tag LANGEVIN_GAMMA_L=0, removes the stochastic term and the friction term from the barostat, resulting in a box update depending solely on the kinetic stress tensor.
NpH ensemble | Langevin |
---|---|
MDALGO | 3 |
ISIF | 3 |
LANGEVIN_GAMMA_L | 0 |
LANGEVIN_GAMMA | 0 |
It is recommended to equilibrate the system of interest with a NPT molecular-dynamics run before starting the NpH run. A general guide for molecular-dynamics simulations can be found on the molecular-dynamics page.
An example INCAR file for the NpH ensemble
#INCAR molecular-dynamics tags NVE ensemble IBRION = 0 # choose molecular-dynamics MDALGO = 3 # using Andersen thermostat ISIF = 3 # compute stress tensor but do not change box volume/shape TEBEG = 300 # set temperature NSW = 10000 # number of time steps POTIM = 1.0 # time step in femto seconds LANGEVIN_GAMMA = 0.0 0.0 # setting friction and stochastic term of Langevin thermostat zero LANGEVIN_GAMMA_L = 0.0 # setting friction and stochastic term of Langevin barostat zero
Mind: This INCAR file only contains the parameters for the molecular-dynamics part. The electronic minimization or the machine learning tags have to be added. |
Related tags and articles
Molecular-dynamics calculations, ISIF, MDALGO, LANGEVIN_GAMMA, LANGEVIN_GAMMA_L, Ensembles