Nuclephile Substitution CH3Cl - mMD1: Difference between revisions
No edit summary |
|||
Line 66: | Line 66: | ||
R 1 6 0 | R 1 6 0 | ||
S 1 -1 5 | S 1 -1 5 | ||
* | *This file is the same as in the previous example {{TAG|Nucleophile Substitution CH3Cl - Standard MD}} with the exception that the 5 at the fourth entry in the third row specifies that a bias potential is applied to the special coordinate. | ||
== Download == | == Download == |
Revision as of 11:22, 19 September 2019
Overview >Liquid Si - Standard MD > Liquid Si - Freezing > Nucleophile Substitution CH3Cl - Standard MD > Nuclephile Substitution CH3Cl - mMD1 > Nuclephile Substitution CH3Cl - mMD2 > Nuclephile Substitution CH3Cl - mMD3 > Nuclephile Substitution CH3Cl - SG > Nuclephile Substitution CH3Cl - BM > List of tutorials
Task
In this example a nucleophile substitution of a Cl- by another Cl- in CH3Cl is attempted via a meta dynamics calculation.
Input
POSCAR
1.00000000000000 12.0000000000000000 0.0000000000000000 0.0000000000000000 0.0000000000000000 12.0000000000000000 0.0000000000000000 0.0000000000000000 0.0000000000000000 12.0000000000000000 C H Cl 1 3 2 cart 5.91331371 7.11364924 5.78037960 5.81982231 8.15982106 5.46969017 4.92222130 6.65954232 5.88978969 6.47810398 7.03808479 6.71586385 4.32824726 8.75151396 7.80743202 6.84157897 6.18713289 4.46842049
- The starting POSCAR file for this example can be found under POSCAR.init. It will be needed for the script that runs the job (run.sh).
- A sufficiently large cell is chosen to minimize the interactions between neighbouring cells and hence to simulate an isolated molecular reaction.
KPOINTS
Automatic 0 Gamma 1 1 1 0. 0. 0.
- For isolated atoms and molecules interactions between periodic images are negligible (in sufficiently large cells) hence no Brillouin zone sampling is necessary.
INCAR
PREC=Low EDIFF=1e-6 LWAVE=.FALSE. LCHARG=.FALSE. NELECT=22 NELMIN=4 LREAL=.FALSE. ALGO=VeryFast ISMEAR=-1 SIGMA=0.0516
############################# MD setting ##################################### IBRION=0 # MD simulation NSW=50000 # number of steps POTIM=1 # integration step TEBEG=600 # simulation temperature MDALGO=11 # metaDynamics with Andersen thermostat ANDERSEN_PROB=0.10 # collision probability HILLS_BIN=50 # update the time-dependent bias # potential every 50 steps HILLS_H=0.005 # height of the Gaussian HILLS_W=0.05 # width of the Gaussian ##############################################################################
- The INCAR file in this example is the same as in the previous example (Nucleophile Substitution CH3Cl - Standard MD) with the exception of the metadynamics tags HILLS_H and HILLS_W.
- Metadynamics molecular dynamics is formally exact in the limit of infinitesimally small hills (HILLS_H) and infinite update time (HILLS_BIN) for the time-dependent bias potential, hence the parameter [[]] should be as small as possible while HILLS_BIN should be as large as possible.
ICONST
For this example an ICONST file is used which looks like:
R 1 5 0 R 1 6 0 S 1 -1 5
- This file is the same as in the previous example Nucleophile Substitution CH3Cl - Standard MD with the exception that the 5 at the fourth entry in the third row specifies that a bias potential is applied to the special coordinate.
Download
Overview >Liquid Si - Standard MD > Liquid Si - Freezing > Nucleophile Substitution CH3Cl - Standard MD > Nuclephile Substitution CH3Cl - mMD1 > Nuclephile Substitution CH3Cl - mMD2 > Nuclephile Substitution CH3Cl - mMD3 > Nuclephile Substitution CH3Cl - SG > Nuclephile Substitution CH3Cl - BM > List of tutorials