KPOINT BSE: Difference between revisions
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{{DISPLAYTITLE:KPOINT_BSE}} | |||
{{TAGDEF|KPOINT_BSE|[integer] (optionally [integer],[integer],[integer])}} | {{TAGDEF|KPOINT_BSE|[integer] (optionally [integer],[integer],[integer])}} | ||
Description: {{TAG|KPOINT_BSE}} specifies the k-point index at which VASP calculates the dielectric matrix. | |||
---- | ---- | ||
In the simplest form one can specify | In the simplest form, one can specify | ||
KPOINT_BSE = index_of_k-point | KPOINT_BSE = index_of_k-point | ||
Select the desired k point from the list of k points in the {{TAG|OUTCAR}} file. Additionally, a shift by an arbitrary reciprocal lattice vector can be supplied by specifying three additional integer numbers: | |||
KPOINT_BSE = index_of_k-point n1 n2 n3 | KPOINT_BSE = index_of_k-point n1 n2 n3 | ||
This allows | This allows calculating the dielectric function at a k point outside of the first Brillouin zone corresponding to | ||
<math> \bold{k} + n_{1} \bold{b}_{1}+ n_{2} \bold{b}_{2} + n_{3} \bold{b}_{3} </math> | :<math> \bold{k} + n_{1} \bold{b}_{1}+ n_{2} \bold{b}_{2} + n_{3} \bold{b}_{3} </math> | ||
where <math>\bold{b}_{i}</math> are the reciprocal lattice vectors of the unit cell. | where <math>\bold{b}_{i}</math> are the reciprocal-lattice vectors of the unit cell. | ||
== Related tags and articles == | |||
{{TAG|BSE calculations}} | |||
{{sc|KPOINT_BSE|Examples|Examples that use this tag}} | |||
---- | ---- | ||
[[Category:INCAR]] [[Category: | [[Category:INCAR tag]][[Category:Many-body perturbation theory]][[Category:Bethe-Salpeter equations]] |
Latest revision as of 12:09, 7 April 2022
KPOINT_BSE = [integer] (optionally [integer],[integer],[integer])
Description: KPOINT_BSE specifies the k-point index at which VASP calculates the dielectric matrix.
In the simplest form, one can specify
KPOINT_BSE = index_of_k-point
Select the desired k point from the list of k points in the OUTCAR file. Additionally, a shift by an arbitrary reciprocal lattice vector can be supplied by specifying three additional integer numbers:
KPOINT_BSE = index_of_k-point n1 n2 n3
This allows calculating the dielectric function at a k point outside of the first Brillouin zone corresponding to
where are the reciprocal-lattice vectors of the unit cell.