DOSCAR: Difference between revisions
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E(max), E(min), (the energy range in which the DOS is given), {{TAG|NEDOS}}, E(fermi), 1.0000 | E(max), E(min), (the energy range in which the DOS is given), {{TAG|NEDOS}}, E(fermi), 1.0000 | ||
which is followed by {{TAG|NEDOS}} lines with the columns | |||
energy DOS integrated DOS | energy DOS integrated DOS | ||
The density of states (DOS) <math>\bar n</math>, is | The density of states (DOS) <math>\bar n</math>, is determined as the difference of the integrated DOS between two pins, i.e. | ||
<math> \bar n(\epsilon_i) = (N(\epsilon_i) - N(\epsilon_{i-1})) / \Delta \epsilon </math> | <math> \bar n(\epsilon_i) = (N(\epsilon_i) - N(\epsilon_{i-1})) / \Delta \epsilon </math> | ||
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<math>N (\epsilon_{i}) = \int_{-\infty}^{\epsilon_i} n(\epsilon) d \epsilon.</math> | <math>N (\epsilon_{i}) = \int_{-\infty}^{\epsilon_i} n(\epsilon) d \epsilon.</math> | ||
This method conserves the total number of electrons exactly. For spin-polarized calculations each line holds five data | This method conserves the total number of electrons exactly. For spin-polarized calculations {{TAG|ISPIN}}=2 each line holds five data columns with following format | ||
energy DOS(up) DOS(dwn) integrated DOS(up) integrated DOS(dwn) | energy DOS(up) DOS(dwn) integrated DOS(up) integrated DOS(dwn) | ||
If {{TAG|RWIGS}} or {{TAG|LORBIT}} (important for Wigner Seitz radii) is set in the {{TAG|INCAR}} file, an lm- and site-projected DOS | If {{TAG|RWIGS}} or {{TAG|LORBIT}} (important for Wigner Seitz radii) is set in the {{TAG|INCAR}} file, an lm- and site-projected DOS is calculated and written to the {{TAG|DOSCAR}} file for each ion. This data, again, contains {{TAG|NEDOS}} lines with various columns depending on the choice of {{TAG|LORBIT}}, {{TAG|ISPIN}} and {{TAG|LNONCOLINEAR}}. | ||
l- | In case of colinear calculations with {{TAG|ISPIN}}=1, the format for l-decomposed calculations for each ion is | ||
energy s-DOS p-DOS d-DOS | energy s-DOS p-DOS d-DOS | ||
lm-resolved | while for lm-resolved calculations the format is: | ||
energy | energy s p_y p_z p_x d_{xy} d_{yz} d_{z2-r2} d_{xz} d_{x2-y2},... | ||
For spin-polarized systems {{TAG|ISPIN}} = 2 additional columns are printed for each spin channel | |||
energy s-DOS(up) s-DOS(down) p-DOS(up) p-DOS(dwn) d-DOS(up) d-DOS(dwn) | energy s-DOS(up) s-DOS(down) p-DOS(up) p-DOS(dwn) d-DOS(up) d-DOS(dwn) | ||
and correspondingly if lm-decomposed densities are selected with {{TAG|LORBIT}}. | |||
For non-collinear calculations, information on the individual spinor components is available only for the site projected density of states: | |||
For non-collinear calculations, | |||
energy s-DOS(total) s-DOS(mx) s-DOS(my) s-DOS(mz) p-DOS(total) p-DOS(mx) ... | energy s-DOS(total) s-DOS(mx) s-DOS(my) s-DOS(mz) p-DOS(total) p-DOS(mx) ... | ||
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In this case, the (site projected) total density of states (total) and the (site projected) energy resolved magnetization density in the <math>x</math> (mx), <math>y</math> (my) and <math>z</math> (mz) directions are available. | In this case, the (site projected) total density of states (total) and the (site projected) energy resolved magnetization density in the <math>x</math> (mx), <math>y</math> (my) and <math>z</math> (mz) directions are available. | ||
In all cases, the units of the | In all cases, the units of the l- and site projected DOS are states/atom/energy. | ||
The site projected DOS is not evaluated in the parallel version for the following cases: | The site projected DOS is not evaluated in the parallel version for the following cases: |
Revision as of 16:18, 19 July 2019
The DOSCAR file contains the DOS and integrated DOS. The units are number of states/eV and number of states, respectively and thus extensively defined. The intensive DOS is obtained by dividing by the Volume of the unit cell. For dynamic simulations and relaxations, an averaged DOS and an averaged integrated DOS is written to the file. For a description of how the averaging is done see the tags NBLOCK, KBLOCK, EMIN, EMAX and NEDOS. The first few lines of the DOSCAR file are made up by a header:
Number of Ions (including empty spheres), Number of Ions, 0 (no partial DOS) or 1 (incl. partial DOS), NCDIJ (currently not used) Volume of the unit cell [Angst**3], length of the basis vectors (a,b,c [m]), POTIM[s] the initial Temperature TEBEG 'CAR' the name of the system as given by SYSTEM in INCAR E(max), E(min), (the energy range in which the DOS is given), NEDOS, E(fermi), 1.0000
which is followed by NEDOS lines with the columns
energy DOS integrated DOS
The density of states (DOS) , is determined as the difference of the integrated DOS between two pins, i.e.
where is the distance between two pins (energy difference between two grid point in the DOSCAR file), and is the integrated DOS
This method conserves the total number of electrons exactly. For spin-polarized calculations ISPIN=2 each line holds five data columns with following format
energy DOS(up) DOS(dwn) integrated DOS(up) integrated DOS(dwn)
If RWIGS or LORBIT (important for Wigner Seitz radii) is set in the INCAR file, an lm- and site-projected DOS is calculated and written to the DOSCAR file for each ion. This data, again, contains NEDOS lines with various columns depending on the choice of LORBIT, ISPIN and LNONCOLINEAR.
In case of colinear calculations with ISPIN=1, the format for l-decomposed calculations for each ion is
energy s-DOS p-DOS d-DOS
while for lm-resolved calculations the format is:
energy s p_y p_z p_x d_{xy} d_{yz} d_{z2-r2} d_{xz} d_{x2-y2},...
For spin-polarized systems ISPIN = 2 additional columns are printed for each spin channel
energy s-DOS(up) s-DOS(down) p-DOS(up) p-DOS(dwn) d-DOS(up) d-DOS(dwn)
and correspondingly if lm-decomposed densities are selected with LORBIT.
For non-collinear calculations, information on the individual spinor components is available only for the site projected density of states:
energy s-DOS(total) s-DOS(mx) s-DOS(my) s-DOS(mz) p-DOS(total) p-DOS(mx) ...
In this case, the (site projected) total density of states (total) and the (site projected) energy resolved magnetization density in the (mx), (my) and (mz) directions are available.
In all cases, the units of the l- and site projected DOS are states/atom/energy.
The site projected DOS is not evaluated in the parallel version for the following cases:
In vasp.4.6 the site projected DOS can be evaluated for LORBIT=10-12, even if NPAR is not equal 1 (contrary to previous releases).
- vasp.5 needs no specification of NPAR
Mind: For relaxations, the DOSCAR is usually useless. If you want to get an accurate DOS for the final configuration, first copy CONTCAR to POSCAR and continue with one static (ISTART=1; NSW=0) calculation.