Constrained MD using a microcanonical ensemble
Description: Compare adsoption of H2O on TiO2[110] using a simple model structure: the model surface consists of 2 layers TiO2, (1x1)
- The bottom layer of the slab will be kept frozen
- 2 setups will be tested:
- Standard relaxation, minimizing the Hellmann-Feyman forces
- Constrained MD, fixing the bond lengths and angle of H2O, the system is coupled to an ANDERSEN thermostat:
- Microcanonical NVE ensemble (no collisions with the thermostat)
- Canonical ensembe at T= 10K, to be close to the standard relaxation (0K)
To keep the computing time reasonable, the number of steps in the MD is limited to 100 (100 fs) which implies that the MD is NOT CONVERGED.
- INCAR for standard relaxation
SYSTEM = H2O_TiO2 ENMAX = 400 ISMEAR = 2 SIGMA = 0.05 EDIFF = 1e-6 EDIFFG = -0.05 IBRION = 2 POTIM = 0.5 NSW = 200
- INCAR for constrained MD using a microcanonical ensemble
SYSTEM = H2O_TiO2 ENMAX = 400 ISMEAR = 2 SIGMA = 0.05 ISMEAR = 0 EDIFF = 1e-6 EDIFFG = -0.05 IBRION = 0 POTIM = 1. MDALGO = 1 # Andersen Thermostat TEBEG = 10; TEEND = 10 NSW = 100
- ICONST for constrained MD using a microcanonical ensemble
R 7 8 0 R 7 9 0 A 8 7 9 0
- INCAR for constrained MD using a canonical ensemble
SYSTEM = H2O_TiO2 ENMAX = 400 ISMEAR = 2 SIGMA = 0.05 ISMEAR = 0 EDIFF = 1e-6 EDIFFG = -0.05 IBRION = 0 POTIM = 1. MDALGO = 1 # Andersen Thermostat ANDERSEN_PROB = 0.9 TEBEG = 10; TEEND = 10 NSW = 100
- ICONST for constrained MD using a canonical ensemble
R 7 8 0 R 7 9 0 A 8 7 9 0
TiO2+H2O
1.00000000000000
4.61949 0.00000 0.00000
0.00000 4.61949 0.00000
0.00000 0.00000 14.7788
Ti O H
2 5 2
Selective
Direct
0.00000 0.00000 0.00000 F F F
0.50000 0.50000 0.10000 T T T
0.30374 0.30374 0.00000 F F F
0.69625 0.69625 0.00000 F F F
0.19625 0.80374 0.10000 T T T
0.80374 0.19625 0.10000 T T T
0.50000 0.50000 0.31500 T T T
0.37720 0.62280 0.35881 T T T
0.62280 0.37720 0.35881 T T T
Automatically generated mesh
0
Gamma
5 5 1
Download
h2o_on_tio2.tgz, sub-folder constrMD_microcanonical
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