Vibrational frequencies of CO on Ni 111 surface

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Revision as of 13:36, 7 June 2019 by Karsai (talk | contribs)

Task

Calculation of the vibrational frequencies of CO@Ni(111) (on top).

Input

POSCAR

Ni - (111) + CO on-top                  
   3.53000000000000     
     0.7071067800000000    0.0000000000000000    0.0000000000000000
    -0.3535533900000000    0.6123724000000000    0.0000000000000000
     0.0000000000000000    0.0000000000000000    5.1961523999999999
   Ni   C    O 
     5     1     1
Selective dynamics
Direct
  0.0000000000000000  0.0000000000000000  0.0000000000000000   F   F   F
  0.3333333300000021  0.6666666699999979  0.1111111100000031   F   F   F
  0.6666666699999979  0.3333333300000021  0.2222222199999990   F   F   F
 -0.0000000000000000  0.0000000000000000  0.3326227833039623   F   F   F
  0.3333333300000021  0.6666666699999979  0.4445699380869117   F   F   F
  0.3333333300000021  0.6666666699999979  0.5403264650180125   F   F   T
  0.3333333300000021  0.6666666699999979  0.6032949698060487   F   F   T
 
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  0.00000000E+00  0.00000000E+00  0.00000000E+00
  • Frequencie only for CO molecule and z-direction (z- and (x,y) are independent).

INCAR

 SYSTEM = CO on Ni111 - frequencies
    
general:
  ENMAX  = 400
  ISMEAR =    2  ; SIGMA = 0.2
  ALGO   = Fast
  EDIFF  = 1E-6
  MAXMIX = 60  # reuse the mixer between ionic steps, saves time
    
dynamic:
  NSW = 100
  IBRION = 5
  NFREE  = 2
  • Small termination criterion (EDIFF).
  • Automatic frequency calculation (displacement 0.04 ).
  • Reuse of the mixer between ionic steps (MAXMIX) to save time.

KPOINTS

k-points
0
Monkhorst-Pack
9 9 1
0 0 0

Calculation

  • Finite differences give the following additional output in the OUTCAR fiel for frequency calculations:
Finite differences progress:
 Degree of freedom:   1/  2
 Displacement:        1/  2
 Total:               1/  4
  • After the first calculation for the equilibrium geometry, NFREE displacements (POTIM) are performed for each degree of freedom. From these displacements the dynamical matrix is set up and diagonalized.
  • At the end of the OUTCAR file the following are listed:
    • Forces.
    • The dynamical matrix and finally.
    • The eigenfrequencies.
    • Eigenvectors (first normalized and then mass-weighted).
  • The example output for the eigenvectors and eigenvalues of the dynamical matrix from the OUTCAR file should look like the following:
Eigenvectors and eigenvalues of the dynamical matrix
----------------------------------------------------
  1 f  =   63.914144 THz   401.584411 2PiTHz 2131.946301 cm-1   264.327748 meV
            X         Y         Z           dx          dy          dz
     0.000000  0.000000  0.000000            0           0           0
     0.000000  1.441116  2.038046            0           0           0
     1.248043  0.720558  4.076093            0           0           0
     0.000000  0.000000  6.108743            0           0           0
     0.000000  1.441116  8.153979            0           0           0
     0.000000  1.441116  9.908620            0           0   -0.761748
     0.000000  1.441116 11.063296            0           0    0.623594
   
   
  2 f  =   12.467410 THz    78.335050 2PiTHz  415.868035 cm-1    51.561083 meV
            X         Y         Z           dx          dy          dz
     0.000000  0.000000  0.000000            0           0           0
     0.000000  1.441116  2.038046            0           0           0
     1.248043  0.720558  4.076093            0           0           0
     0.000000  0.000000  6.108743            0           0           0
     0.000000  1.441116  8.153979            0           0           0
     0.000000  1.441116  9.908620            0           0   -0.623594
     0.000000  1.441116 11.063296            0           0   -0.781748


  • Try to change the selective dynamics tag such that displacements

in x and y direction are allowed as well for CO (note that the selective dynamics flags always refer to cartesian coordinates), i.e,

 0.3333333300000021  0.6666666699999979  0.5403264650180125   F   F   T
 0.3333333300000021  0.6666666699999979  0.6032949698060487   F   F   T

to

 0.3333333300000021  0.6666666699999979  0.5403264650180125   T   T   T
 0.3333333300000021  0.6666666699999979  0.6032949698060487   T   T   T

Also test whether you need to decrease EDIFF to 1E-8.

Download

COonNi111_freq.tgz

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