Nuclephile Substitution CH3Cl - mMD1

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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

############################# MD setting #####################################
IBRION = 0                                           # MD simulation
NSW = 1000                                           # number of steps
POTIM = 1                                            # integration step
TEBEG = 300                                          # 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
##############################################################################   

PREC = Low
EDIFF = 1e-6
LWAVE = .FALSE.
LCHARG = .FALSE.
NELECT = 22
NELMIN = 4
LREAL = .FALSE.
ALGO = VeryFast
ISMEAR = -1
SIGMA = 0.0258

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