Bulk Lattice constant:by Fitting or Relaxtion ?
Posted: Mon Jul 07, 2008 7:07 pm
Dear List
I am using VASP to calculate Bulk-Lattice constant for the Ni(111), with two different approaches, using the same KPOINT file (please see below) and other non-dynamic parameters.
Approaches:
1. Performing single point calculations: i.e. by varying different lattice constants in the f.c.c. unit cell, and fitting the curve of energy vs. lattice constant by means of a cubic-spine; and takes the minimum domain as the lattice constant. [pls see : www.nsc.liu.se/lcsc2005/vasp/handson_excercises_4.ps].
2. from the volume relaxation: as depicted in http://cms.mpi.univie.ac.at/vasp/vasp/node211.html.
note: Since I found the cell-shape is changed, and force is converged, I did not perform the “second relaxation from previous CONTCAR file (re-relaxation).�
Results:
I obtained almost similar experimental lattice parameter by approach-1 (3.5225 Angstroms) and approach-2 is found only 3.516 Angstroms !
parameters:
KPOINTS
::::::::::::::
K-points
0
Gamma
11 11 11
0. 0. 0.
INCAR// for the volume relaxation
::::::::::::::
SYSTEM = Ni,fcc
IBRION=1
ISIF=7
NSW=100
EDIFF = 1E-6
GGA=91
VOSKOWN=1
ISPIN=2
MAGMOM=1
LREAL=.FALSE.
ADDGRID = .TRUE.
PREC= Accurate
Electronic minimisation
ENCUT =400 eV
DOS related values
ISMEAR = 1;
INCAR//single point calcs
::::::::::::::
SYSTEM = NI-fcc
EDIFF = 1E-6
GGA=91
VOSKOWN=1
ISPIN=2
MAGMOM=1
LREAL=.FALSE.
ADDGRID = .TRUE.
PREC= Accurate
Electronic minimisation
ENCUT =400 eV
DOS related values
ISMEAR = -5;
Interestingly when I tighten-up the KPOINTS to 15 15 15 on the KPOINT file[all-else is same] and EDIFF = EDIFFG = 1E-6, and ENCUT=600, in INCAR[volume relaxation INCAR file] file I got 3.5225 as the lattice constant which agrees with approach-1 value.
Question:
I wonder why we need to setup higher settings in approach-2 in order to get acomparable value from approach-1 [or experimental].
Any help would be GREATLY appreciated!!
With best regards and thanks for reading,
Krishna Mohan GP.
THEOR CHEM
University Of Leiden.
I am using VASP to calculate Bulk-Lattice constant for the Ni(111), with two different approaches, using the same KPOINT file (please see below) and other non-dynamic parameters.
Approaches:
1. Performing single point calculations: i.e. by varying different lattice constants in the f.c.c. unit cell, and fitting the curve of energy vs. lattice constant by means of a cubic-spine; and takes the minimum domain as the lattice constant. [pls see : www.nsc.liu.se/lcsc2005/vasp/handson_excercises_4.ps].
2. from the volume relaxation: as depicted in http://cms.mpi.univie.ac.at/vasp/vasp/node211.html.
note: Since I found the cell-shape is changed, and force is converged, I did not perform the “second relaxation from previous CONTCAR file (re-relaxation).�
Results:
I obtained almost similar experimental lattice parameter by approach-1 (3.5225 Angstroms) and approach-2 is found only 3.516 Angstroms !
parameters:
KPOINTS
::::::::::::::
K-points
0
Gamma
11 11 11
0. 0. 0.
INCAR// for the volume relaxation
::::::::::::::
SYSTEM = Ni,fcc
IBRION=1
ISIF=7
NSW=100
EDIFF = 1E-6
GGA=91
VOSKOWN=1
ISPIN=2
MAGMOM=1
LREAL=.FALSE.
ADDGRID = .TRUE.
PREC= Accurate
Electronic minimisation
ENCUT =400 eV
DOS related values
ISMEAR = 1;
INCAR//single point calcs
::::::::::::::
SYSTEM = NI-fcc
EDIFF = 1E-6
GGA=91
VOSKOWN=1
ISPIN=2
MAGMOM=1
LREAL=.FALSE.
ADDGRID = .TRUE.
PREC= Accurate
Electronic minimisation
ENCUT =400 eV
DOS related values
ISMEAR = -5;
Interestingly when I tighten-up the KPOINTS to 15 15 15 on the KPOINT file[all-else is same] and EDIFF = EDIFFG = 1E-6, and ENCUT=600, in INCAR[volume relaxation INCAR file] file I got 3.5225 as the lattice constant which agrees with approach-1 value.
Question:
I wonder why we need to setup higher settings in approach-2 in order to get acomparable value from approach-1 [or experimental].
Any help would be GREATLY appreciated!!
With best regards and thanks for reading,
Krishna Mohan GP.
THEOR CHEM
University Of Leiden.