dboc - Diagonal Born-Oppenheimer Correction using HF and CI wave
functions.
The program dboc computes Diagonal Born-Oppenheimer
Correction (DBOC) using HF and CI wave functions.
"Cartesian" DBOC formula (aka Born-Handy-Pulay
formula):
- 1.
- N. C. Handy, J. Yamaguchi, and H. F. Schaefer, J. Chem. Phys. 84, 4481
(1986).
Justification for the "Cartesian" DBOC formula:
- 1.
- W. Kutzelnigg, Mol. Phys. 90, 909 (1997).
Finite-difference formulation of DBOC at CI level
- 1.
- E. F. Valeev and C. D. Sherrill, J. Chem. Phys. 118, 3921 (2003).
The following keywords are valid:
- WFN =
string
- Specifies the type of wave function desired. The only valid entries at the
present are SCF and DETCI. There is no default.
- REFERENCE =
string
- Specifies the type of orbitals used for the single-determinant reference
function. Valid choices are RHF, ROHF, and UHF. There
is no default.
- PRINT =
integer
- Determines the verbosity of the output. A value of 0 (the default)
specifies minimal printing.
- :DBOC:DISPLACEMENT = real
- Determines the finite difference step (in a.u.). The default is 0.0005
a.u.
- :DBOC:DISP_PER_COORD = integer
- Determines the number of displacements for each coordinate. Set it to 2 to
compute DBOC with standard accuracy (enough significant digits for up to
second derivatives; DBOC accurate to square of displacement size), and 4
to compute DBOC with improved accuracy (DBOC accurate to the fourth power
of displacement size). The default is 2.
- ISOTOPES =
string_vector
- Specifies which isotope to use for each atom. Each string should specify
an isotope label as defined in include/masses.h. By default, most
abundant isotopes are used for each element.
- :DBOC:COORDS = vector
- This keyword should only be used by advanced users who are familiar with
how DBOC is evaluated by finite differences. The keyword may be used to
specify the cartesian nuclear coordinates to use in the sum expression for
DBOC, their respective coefficients, and whether they are symmetric or
nonsymmetric with respect displacements. dboc can use symmetry to
minimize the number of wave function computations. Hence this keyword need
only be used for diagnostic purposes or when displacements along different
coordinates need to be run separately (e.g. require different occupation
vectors). The value for this keyword is an array of 3 element vectors. The
first element of each vector is the index of the cartesian coordinate
which to include into the sum. The second element is a real coefficient
for the respective term in the DBOC expression. The third element is a
string that can take two values, symm and nonsymm, which
indicate that the coordinate is symmetric or nonsymmetric with respect to
displacements, respectively. Indices are C-style, i.e. from 0 to
3*natom-1.