Category:Exchange-correlation functionals: Difference between revisions

Revision as of 20:35, 26 October 2022

In the KS formulation of DFT^[1]^[2], the total energy is given by

E_{\rm {tot}}^{\rm {KS-DFT}}=-{\frac {1}{2}}\sum _{i}\int \psi _{i}^{*}({\bf {r}})\nabla ^{2}\psi _{i}({\bf {r}})d^{3}r-\sum _{A}\int {\frac {Z_{A}}{\left\vert {\bf {r}}-{\bf {R}}_{A}\right\vert }}n({\bf {r}})d^{3}r+{\frac {1}{2}}\int \int {\frac {n({\bf {r}})n({\bf {r'}})}{\left\vert {\bf {r}}-{\bf {r'}}\right\vert }}d^{3}rd^{3}r'+E_{\rm {xc}}+{\frac {1}{2}}\sum _{A\neq B}{\frac {Z_{A}Z_{B}}{\left\vert {\bf {R}}_{A}-{\bf {R}}_{B}\right\vert }}

where the terms on the right-hand side represent the non-interacting kinetic energy of the electrons, the electrons-nuclei attraction energy, the classical Coulomb electron-electron repulsive energy, the exchange-correlation energy and the nuclei-nuclei repulsion energy, respectively. The orbitals $\psi _{i}$ and the electron density $n=\sum _{i}\left\vert \psi _{i}\right\vert ^{2}$ that are used to evaluate $E_{\rm {tot}}$ are obtained by solving self-consistently the KS equations

\left(-{\frac {1}{2}}\nabla ^{2}-\sum _{A}{\frac {Z_{A}}{\left\vert {\bf {r}}-{\bf {R}}_{A}\right\vert }}+\int {\frac {n({\bf {r'}})}{\left\vert {\bf {r}}-{\bf {r'}}\right\vert }}d^{3}r'+v_{\rm {xc}}({\bf {r}})\right)\psi _{i}({\bf {r}})=\epsilon _{i}\psi _{i}({\bf {r}})

The only terms in $E_{\rm {tot}}$ and in the KS equations that are not known exactly are the exchange-correlation energy functional $E_{\rm {xc}}$ and potential $v_{\rm {xc}}=\delta E_{\rm {xc}}/\delta n$ . Therefore, the accuracy of the calculated properties depends mainly on the approximations used for $E_{\rm {xc}}$ and $v_{\rm {xc}}$ . Several hundreds of approximations for the exchange and correlation have been proposed^[3]. They can be classified into several types, like the local density approximation (LDA), generalized gradient approximation (GGA), meta-GGA, and hybrid. Functionals that include van der Waals corrections have also been proposed. More details on the different types of approximations available in VASP and how to use them can be found in the pages and subcategories listed below.

How to

Semilocal functionals:
- LDA and GGA: GGA
- Meta-GGA: METAGGA
Hybrids: LHFCALC and list of hybrid functionals
DFT+U: LDAU and LDAUTYPE
Atom-pairwise methods for van der Waals interactions (selected with the IVDW tag):
- Methods from Grimme et al.:
  - DFT-D2
  - DFT-D3
- Methods from Tkatchenko, Scheffler et al.:
- dDsC dispersion correction
Nonlocal vdW-DF functionals for van der Waals interactions: LUSE_VDW

References

Subcategories

This category has the following 5 subcategories, out of 5 total.

Pages in category "Exchange-correlation functionals"

The following 117 pages are in this category, out of 117 total.

A

B

BPARAM

C

D

E

G

H

I

IVDW
IVDW NL

M

N

O

ODDONLY

P

R

RSMBJ

S

T

V

X

XC
XC C

Z

ZAB VDW

[hohenberg:pr:1964-1] P. Hohenberg and W. Kohn, Phys. Rev. 136, B864 (1964).

[kohn:pr:1965-2] W. Kohn and L. J. Sham, Phys. Rev. 140, A1133 (1965).

[libxc_list-3] ttps://libxc.gitlab.io/functionals/

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[2]

[3]

@@ Line 11: / Line 11: @@
 == How to ==
 *Semilocal functionals:
-**LDA and GGA: {{TAG|GGA}}.
+**LDA and GGA: {{TAG|GGA}}
-**Meta-GGA: {{TAG|METAGGA}}.
+**Meta-GGA: {{TAG|METAGGA}}
-*Hybrids: {{TAG|LHFCALC}} and [[List_of_hybrid_functionals|list of hybrid functionals]].
+*Hybrids: {{TAG|LHFCALC}} and [[List_of_hybrid_functionals|list of hybrid functionals]]
-*DFT+U: {{TAG|LDAU}} and {{TAG|LDAUTYPE}}.
+*DFT+U: {{TAG|LDAU}} and {{TAG|LDAUTYPE}}
 *Atom-pairwise methods for van der Waals interactions (selected with the {{TAG|IVDW}} tag):
 **Methods from Grimme et al.:
-***{{TAG|DFT-D2}}.
+***{{TAG|DFT-D2}}
-***{{TAG|DFT-D3}}.
+***{{TAG|DFT-D3}}
 **Methods from Tkatchenko, Scheffler et al.:
-***{{TAG|Tkatchenko-Scheffler method}}.
+***{{TAG|Tkatchenko-Scheffler method}}
-***{{TAG|Tkatchenko-Scheffler method with iterative Hirshfeld partitioning}}.
+***{{TAG|Tkatchenko-Scheffler method with iterative Hirshfeld partitioning}}
-***{{TAG|Self-consistent screening in Tkatchenko-Scheffler method}}.
+***{{TAG|Self-consistent screening in Tkatchenko-Scheffler method}}
-***{{TAG|Many-body dispersion energy}}.
+***{{TAG|Many-body dispersion energy}}
-***{{TAG|Many-body_dispersion_energy_with_fractionally_ionic_model_for_polarizability}}.
+***{{TAG|Many-body_dispersion_energy_with_fractionally_ionic_model_for_polarizability}}
-**{{TAG|dDsC dispersion correction}}.
+**{{TAG|dDsC dispersion correction}}
-*{{TAG|Nonlocal vdW-DF functionals}} for van der Waals interactions: {{TAG|LUSE_VDW}}.
+*{{TAG|Nonlocal vdW-DF functionals}} for van der Waals interactions: {{TAG|LUSE_VDW}}
 == References ==