Many of the preceding sections of chapter 10 are concerned with properties that require the solution of underlying equations similar to those from TDDFT (see eq. (7.15)), but in the presence of a (time-dependent) perturbation:
(10.112) |
where and
for canonical HF/DFT MOs. The
functionality for solving these equations with a general choice of operators
representing a perturbation is now available in Q-Chem. Both
singlet
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J. Chem. Phys.
(1988),
89,
pp. 3654.
Link
and triplet
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J. Chem. Phys.
(1989),
91,
pp. 381.
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response are
available for a variety of operators (see
table 10.4).
An additional feature of the general response module is its ability to work
with non-orthogonal MOs. In a formulation analogous to
TDDFT(MI)
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J. Chem. Phys.
(2015),
143,
pp. 034106.
Link
, the linear response for molecular
interactions
, or LR(MI), method is available to solve the
linear response equations on top of ALMOs.
The response solver can be used with any density functional available in Q-Chem, including range-separated functionals (e.g. CAM-B3LYP, B97X) and meta-GGAs (e.g. M06-2X).
There are a few limitations:
No post-HF/correlated methods are available yet.
Currently, only linear response is implemented.
Only calculations on top of restricted and unrestricted (not restricted open-shell) references are implemented.
Density functionals including non-local dispersion (e.g. VV10, B97M-V) are not yet available.