Category:Wannier functions: Difference between revisions

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Wannier functions <math>|w_{m\mathbf{R}}\rangle</math> are constructed by a linear combination of Bloch states <math>|\psi_{n\mathbf{k}}\rangle</math>, i.e., the computed Kohn-Sham (KS) orbitals, as follows:


::<math>
|w_{m\mathbf{R}}\rangle =
\sum_{n\mathbf{k}}
e^{-i\mathbf{k}\cdot\mathbf{R}}
U_{mn\mathbf{k}}
|\psi_{n\mathbf{k}}\rangle.
</math>
Here, <math>U_{mn\mathbf{k}}</math> is a unitary matrix which can be generated using different approaches discussed below, <math>m</math> is an index enumerating Wannier functions with position <math>\mathbf{R}</math>, <math>n</math> is the band index, and <math>\mathbf{k}</math> is the Bloch vector.
Generally, one starts with an initial guess for <math>U_{mn\mathbf{k}}</math> that is built from <math>A_{mn\mathbf{k}}</math>. The latter can be built from projections onto some localized-orbital basis.
Comprehensive instructions on how to construct Wannier orbitals in VASP can be found [[Constructing_Wannier_orbitals|here]].
== One-shot singular-value decomposition (SVD)==
In one-shot SVD, <math>A_{mn\mathbf{k}}</math> is computed by projecting the KS orbitals onto localized orbitals basis <math>\phi_{m\mathbf{k}}</math> that is specified by the {{TAG|LOCPROJ}} tag:
::<math>
A_{mn\mathbf{k}} =
\langle \psi_{n\mathbf{k}} | S |\phi_{m\mathbf{k}}\rangle,
</math>
where
::<math>
\phi_{i\mathbf{k}}(\mathbf{r}) = e^{\mathrm{i}\mathbf{k}\cdot\mathbf{r}} Y_{lm}(\hat{r})R_n(r).
</math>
Note that <math>i</math> encodes the quantum numbers <math>n</math>, <math>l</math>, and <math>m</math>. Thus, in <math>A_{mn\mathbf{k}}</math>, <math>m</math> is not the magnetic quantum number.
Then, VASP performs one-shot SVD for each k point
::<math>
A_{mn\mathbf{k}} = [D \Sigma V^*]_{mn\mathbf{k}}
</math>
to obtain the unitary matrix
::<math>
U_{mn\mathbf{k}} = [DV^*]_{mn\mathbf{k}}.
</math>
== Selected columns of the density matrix (SCDM) ==
The SCDM method {{cite|damle:mms:2018}} is switched on using {{TAG|LSCDM}}. It has the advantage that the specification of a local basis in terms of atomic quantum numbers is omitted.
== Maximally localized Wannier functions using Wannier90 ==
The interface of VASP with the Wannier90 code{{cite|mostofi:cpc:2014}}{{cite|pizzi:jpcm:2020}} is mainly controlled by {{TAG|LWANNIER90}} and {{TAG|LWANNIER90_RUN}}. First, the initial guess for <math>A_{mn\mathbf{k}}</math> can be created by providing the ''projections block'' in the '''wannier90.win''' file (also see {{TAG|WANNIER90_WIN}}) and setting {{TAG|LWANNIER90}}=True.
In order to obtain maximally localized Wannier functions, <math>U_{mn\mathbf{k}}</math> is constructed in a second step. For this, <math>A_{mn\mathbf{k}}</math> could be created using any projection method in the first step, i.e., single-shot SVD method ({{TAG|LOCPROJ}}), SCDM method ({{TAG|LSCDM}}), or Wannier90 ({{TAG|LWANNIER90}}). Then, Wannier90 can be executed directly or through VASP with the {{TAG|LWANNIER90_RUN}} tag.
== References ==
<references/>
[[Category:VASP|Wannier Functions]]

Latest revision as of 08:48, 20 August 2024

Wannier functions are constructed by a linear combination of Bloch states , i.e., the computed Kohn-Sham (KS) orbitals, as follows:

Here, is a unitary matrix which can be generated using different approaches discussed below, is an index enumerating Wannier functions with position , is the band index, and is the Bloch vector. Generally, one starts with an initial guess for that is built from . The latter can be built from projections onto some localized-orbital basis.

Comprehensive instructions on how to construct Wannier orbitals in VASP can be found here.

One-shot singular-value decomposition (SVD)

In one-shot SVD, is computed by projecting the KS orbitals onto localized orbitals basis that is specified by the LOCPROJ tag:

where

Note that encodes the quantum numbers , , and . Thus, in , is not the magnetic quantum number.

Then, VASP performs one-shot SVD for each k point

to obtain the unitary matrix

Selected columns of the density matrix (SCDM)

The SCDM method [1] is switched on using LSCDM. It has the advantage that the specification of a local basis in terms of atomic quantum numbers is omitted.

Maximally localized Wannier functions using Wannier90

The interface of VASP with the Wannier90 code[2][3] is mainly controlled by LWANNIER90 and LWANNIER90_RUN. First, the initial guess for can be created by providing the projections block in the wannier90.win file (also see WANNIER90_WIN) and setting LWANNIER90=True.

In order to obtain maximally localized Wannier functions, is constructed in a second step. For this, could be created using any projection method in the first step, i.e., single-shot SVD method (LOCPROJ), SCDM method (LSCDM), or Wannier90 (LWANNIER90). Then, Wannier90 can be executed directly or through VASP with the LWANNIER90_RUN tag.

References