LIBXC1

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Revision as of 07:51, 17 January 2022 by Ftran (talk | contribs)

LIBXC1 = [integer] or [string] 

Description: LIBXC1 specifies the exchange or exchange-correlation functional from the library of exchange-correlation functionals Libxc[1][2][3] that one wants to use.

N.B.: This feature is available from VASP.6.3.0 onwards that needs to be compiled with -DUSELIBXC.


LIBXC1 and LIBXC2 can be either integers or strings. The available functionals are listed on the Libxc website[4] along with their associated number and tag (e.g., 101 and GGA_X_PBE for PBE exchange). The tag indicates if this is an exchange (X), correlation (C) or exchange-correlation (XC) functional, and to which family it belongs to, namely LDA (LDA or HYB_LDA), GGA (GGA or HYB_GGA) or meta-GGA (MGGA or HYB_MGGA). Note that calculations with laplacian-dependent meta-GGA functionals are not yet possible with VASP.

Libxc is a separate program that has to be downloaded[3] and compiled before VASP is compiled with the corresponding precompiler flag and options.

Important: Regarding meta-GGA functionals and the kinetic-energy density (see LTBOUNDLIBXC), an important patch should be applied to Libxc version 5.1.7 before compiling it, as explained on the installation page.

The allowed possibilities for LIBXC1 and LIBXC2 are the following:

  • Both LIBXC1  and LIBXC2 are specified and correspond to exchange and correlation functionals, respectively.
  • Only LIBXC1  is specified and corresponds to an exchange-correlation, exchange or correlation functional. As a side note, the latter choice would not, from the physical point of view, make sense. Note also that if LIBXC1  is an exchange-correlation functional, then LIBXC2  can not be used.
  • LIBXC1  and LIBXC2 can correspond to functionals of different families, e.g., a meta-GGA and a GGA, respectively.

Regarding other tags in INCAR related to Libxc:

  • One also has to specify GGA = LIBXC for LDA, GGA and GGA-based hybrid functionals or METAGGA = LIBXC for meta-GGA functionals (calculations with meta-GGA-based hybrid functionals are not yet possible with VASP).
  • Many of the functionals implemented in Libxc have parameters that can be modified. This can be done via the tags LIBXC1_Pn and LIBXC2_Pn, where .
  • The tag LTBOUNDLIBXC, which is .FALSE. by default, allows to enforce the lower bound on the kinetic-energy density () with before is used in a meta-GGA functional from Libxc.

For calculations with hybrid functionals (i.e., when LHFCALC = .TRUE.), the following provides some explanations:

  • The Libxc functionals whose tag starts with HYB_LDA_XC, HYB_GGA_XC or HYB_MGGA_XC (not yet usable with VASP) consist directly of the whole (XC) semilocal component of a hybrid functional. For these functionals AGGAX, AGGAC and ALDAC can not be used (more informations on how to modify the mixing and screening parameters can be found here LIBXC1_Pn).
  • The Libxc functionals whose tag starts with HYB_GGA_X or HYB_MGGA_X (not yet usable with VASP) consist of the exchange semilocal component of a hybrid functional. For these functionals AGGAX can not be used (more informations on how to modify the mixing and screening parameters can be found here LIBXC1_Pn).
  • If the semilocal component of the hybrid functional is constructed using Libxc functionals that do not contain HYB in the tag, then (1-AEXX), AGGAX, ALDAC and AGGAC will be used and multiply
respectively, where and .

Examples of how to specify a Libxc functional in INCAR are given below for the GGA PBE[5], meta-GGA SCAN[6] and hybrid PBEh (PBE0)[7] functionals.

  • PBE
GGA = LIBXC
LIBXC1 = 101
LIBXC2 = 130

or

GGA = LIBXC
LIBXC1 = GGA_X_PBE
LIBXC2 = GGA_C_PBE
  • SCAN
METAGGA = LIBXC
LIBXC1 = 263
LIBXC2 = 267

or

METAGGA = LIBXC
LIBXC1 = MGGA_X_SCAN
LIBXC2 = MGGA_C_SCAN
  • PBEh (PBE0)
LHFCALC = .TRUE.
AEXX = 0.25
GGA = LIBXC
LIBXC1 = 406

or

LHFCALC = .TRUE.
AEXX = 0.25
GGA = LIBXC
LIBXC1 = HYB_GGA_XC_PBEH

Related Tags and Sections

LIBXC1_Pn, LTBOUNDLIBXC, GGA, METAGGA, LHFCALC, AEXX, AGGAX, AGGAC, ALDAC, hybrid functionals, settings for specific hybrid functionals


Examples that use this tag

References