This section describes DFT-C,
1331
J. Chem. Phys.
(2017),
146,
pp. 234105.
Link
an empirical correction for
basis set superposition error (BSSE) in DFT calculations that is an adaptation
of Grimme’s geometrical counterpoise (gCP) correction.
653
J. Chem. Phys.
(2012),
136,
pp. 154101.
Link
Unlike
the traditional Boys-Bernardi counterpoise correction
(Section 8.9),
132
Mol. Phys.
(1970),
19,
pp. 553.
Link
the cost of the DFT-C correction
is essentially zero (on the scale of a DFT calculation), and the latter
provides an estimate of both inter- and intramolecular BSSE. The form
of this correction is
(5.54) |
where is a damped, pairwise BSSE correction,
(5.55) |
The quantity
(5.56) |
is the undamped pairwise BSSE and
(5.57) |
is a damping function. The quantity is a many-body correction to the two-body BSSE correction, given by
(5.58) |
where
(5.59) |
The parameters , , , and are basis-set-dependent, and the overall scaling parameter is loosely method-dependent. All of these parameters are set internally based on the method and basis $rem specifications.
Note: Currently, only the def2-SVPD basis set is supported for use with DFT-C.
The DFT-C correction is governed by the following $rem variable:
DFT_C
DFT_C
Controls whether the DFT-C empirical BSSE correction should be added.
TYPE:
LOGICAL
DEFAULT:
FALSE
OPTIONS:
FALSE
(or 0) Do not apply the DFT-C correction
TRUE
(or 1) Apply the DFT-C correction
RECOMMENDATION:
NONE
The DFT-C method can be applied to any local, GGA, or meta-GGA density functional, as in the following example.
$molecule 0 1 C 0.000000 -0.000140 1.859161 H -0.888551 0.513060 1.494685 H 0.888551 0.513060 1.494685 H 0.000000 -1.026339 1.494868 H 0.000000 0.000089 2.948284 C 0.000000 0.000140 -1.859161 H 0.000000 -0.000089 -2.948284 H -0.888551 -0.513060 -1.494685 H 0.888551 -0.513060 -1.494685 H 0.000000 1.026339 -1.494868 $end $rem JOBTYPE opt BASIS def2-SVPD METHOD b97m-v DFT_C true $end