FOCKCORR: Difference between revisions

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Note that in the case {{TAG|FOCKCORR}}=2 the corrections are only applied to orbitals in the <math>\mathbf{q}</math> regular grid used to describe the exact exchange potential so this method cannot be used to compute band structures where this potential is applied to orbitals <math>n\mathbf{k}</math> not in the <math>m\mathbf{q}</math> set.
Note that in the case {{TAG|FOCKCORR}}=2 the corrections are only applied to orbitals in the <math>\mathbf{q}</math> regular grid used to describe the exact exchange potential so this method cannot be used to compute band structures where this potential is applied to orbitals <math>n\mathbf{k}</math> not in the <math>m\mathbf{q}</math> set.
{{NB|warning| {{TAG|FOCKCORR}} set to 2 should not be used when computing the band structure along a path with the [[Si_HSE_bandstructure|0-weight scheme]] or {{TAG|KPOINTS_OPT}} }}
{{NB|warning| {{TAG|FOCKCORR}}{{=}}2 should '''not''' be used when computing the band structure along a path with the [[Si_HSE_bandstructure|0-weight scheme]] or {{TAG|KPOINTS_OPT}} }}


In previous versions of VASP,  
In previous versions of VASP,  

Revision as of 15:30, 5 May 2022

FOCKCORR = 1 | 2 

Default: FOCKCORR = 2 if LMAXFOCKAE>0
= 1 else

Description: The tag FOCKCORR determines how the Coulomb convergence corrections are applied.


The Coulomb potential in reciprocal space

diverges for small G vectors. To alleviate this issue and improve the convergence of the exact exchange integral with respect to supercell size (or k-point mesh density) different methods have been proposed: the auxiliary function methods[1], probe-charge Ewald [2] (HFALPHA), and Coulomb truncation methods[3] (HFRCUT). These mostly involve modifying the Coulomb Kernel in a way that yields the same result as the unmodified kernel within the limit of large supercell sizes.

These corrections are implemented in VASP either by changing the component of the Coulomb kernel when FOCKCORR=1

with being the value of the correction and depends on whether HFALPHA or HFRCUT are set, or by including the original orbital scaled by the convergence correction when FOCKCORR=2

For Hartree-Fock or hybrid functional calculations, either FOCKCORR=1 or FOCKCORR=2 can be used and should yield the same results when LMAXFOCKAE=-1 and there are no aliasing errors in the exact exchange (see PRECFOCK for more details). For post-DFT methods such as ACDFT, GW, and BSE the FOCKCORR=2 should be used because the overlap densities are reconstructed in the plane-wave grid (see LMAXFOCKAE tag).

Note that in the case FOCKCORR=2 the corrections are only applied to orbitals in the regular grid used to describe the exact exchange potential so this method cannot be used to compute band structures where this potential is applied to orbitals not in the set.

Warning: FOCKCORR=2 should not be used when computing the band structure along a path with the 0-weight scheme or KPOINTS_OPT

In previous versions of VASP, FOCKCORR=1 was used when ALGO=Normal; LFOCKACE=.FALSE. and FOCKCORR=2 when ALGO=All or ALGO=Normal; LFOCKACE=.TRUE. .

Mind: Only available as of VASP 6.3.1.

Related tags and articles

HFRCUT, HFALPHA

Examples that use this tag


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