LPEAD: Difference between revisions
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These tags may be used in combination with {{TAG|LOPTICS}}=.TRUE. and {{TAG|LEPSILON}}=.TRUE.. | These tags may be used in combination with {{TAG|LOPTICS}}=.TRUE. and {{TAG|LEPSILON}}=.TRUE.. | ||
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*N.B. Please note that {{TAG|LPEAD}} = .TRUE. '''is not supported for metallic systems'''. | |||
== Related | == Related tags and articles == | ||
{{TAG|IPEAD}}, | {{TAG|IPEAD}}, | ||
{{TAG|LEPSILON}}, | {{TAG|LEPSILON}}, | ||
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{{sc|LPEAD|Examples|Examples that use this tag}} | {{sc|LPEAD|Examples|Examples that use this tag}} | ||
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[[Category:INCAR]][[Category:Berry phases]] | [[Category:INCAR tag]][[Category:Linear response]][[Category:Dielectric properties]][[Category:Berry phases]] |
Latest revision as of 07:59, 19 July 2022
LPEAD = .TRUE. | .FALSE
Default: LPEAD = .FALSE.
Description: for LPEAD=.TRUE., the derivative of the cell-periodic part of the orbitals w.r.t. k, |∇kunk⟩, is calculated using finite differences.
The derivative of the cell-periodic part of the orbitals w.r.t. k, k, |∇kunk⟩, may be written as:
where H(k) and S(k) are the Hamiltonian and overlap operator for the cell-periodic part of the orbitals, and the sum over n´ must include a sufficiently large number of unoccupied states.
It may also be found as the solution to the following linear Sternheimer equation (see LEPSILON):
Alternatively one may compute from finite differences:
where m runs over the N occupied bands of the system, Δk=kj+1-kj, and
- .
As mentioned in the context of the self-consistent response to finite electric fields one may derive analoguous expressions for |∇kunk⟩ using higher-order finite difference approximations.
When LPEAD=.TRUE., VASP will compute |∇kunk⟩ using the aforementioned finite difference scheme. The order of the finite difference approximation can be specified by means of the IPEAD-tag (default: IPEAD=4).
These tags may be used in combination with LOPTICS=.TRUE. and LEPSILON=.TRUE..
- N.B. Please note that LPEAD = .TRUE. is not supported for metallic systems.
Related tags and articles
IPEAD, LEPSILON, LOPTICS, LCALCEPS, EFIELD_PEAD, Berry phases and finite electric fields