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qp2/docs/source/modules/hartree_fock.rst

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.. _module_hartree_fock:
.. program:: hartree_fock
.. default-role:: option
============
hartree_fock
============
The :ref:`scf` program performs *Restricted* Hartree-Fock
calculations (the spatial part of the |MOs| is common for alpha and beta
spinorbitals).
The Hartree-Fock algorithm is a |SCF| and therefore is based on the
:ref:`module_scf_utils`` module.
The Fock matrix is defined in :file:`hartree_fock fock_matrix_hf.irp.f`.
EZFIO parameters
----------------
.. option:: energy
Energy HF
Programs
--------
* :ref:`scf`
Providers
---------
.. c:var:: ao_two_e_integral_alpha
File : :file:`hartree_fock/fock_matrix_hf.irp.f`
.. code:: fortran
double precision, allocatable :: ao_two_e_integral_alpha (ao_num,ao_num)
double precision, allocatable :: ao_two_e_integral_beta (ao_num,ao_num)
Alpha Fock matrix in AO basis set
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_coef_normalized_ordered_transp`
* :c:data:`ao_expo_ordered_transp`
* :c:data:`ao_integrals_map`
* :c:data:`ao_integrals_threshold`
* :c:data:`ao_nucl`
* :c:data:`ao_num`
* :c:data:`ao_overlap_abs`
* :c:data:`ao_power`
* :c:data:`ao_prim_num`
* :c:data:`ao_two_e_integral_schwartz`
* :c:data:`ao_two_e_integrals_in_map`
* :c:data:`do_direct_integrals`
* :c:data:`n_pt_max_integrals`
* :c:data:`nucl_coord`
* :c:data:`scf_density_matrix_ao_alpha`
* :c:data:`scf_density_matrix_ao_beta`
Needed by:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`hf_energy`
.. c:var:: ao_two_e_integral_beta
File : :file:`hartree_fock/fock_matrix_hf.irp.f`
.. code:: fortran
double precision, allocatable :: ao_two_e_integral_alpha (ao_num,ao_num)
double precision, allocatable :: ao_two_e_integral_beta (ao_num,ao_num)
Alpha Fock matrix in AO basis set
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_coef_normalized_ordered_transp`
* :c:data:`ao_expo_ordered_transp`
* :c:data:`ao_integrals_map`
* :c:data:`ao_integrals_threshold`
* :c:data:`ao_nucl`
* :c:data:`ao_num`
* :c:data:`ao_overlap_abs`
* :c:data:`ao_power`
* :c:data:`ao_prim_num`
* :c:data:`ao_two_e_integral_schwartz`
* :c:data:`ao_two_e_integrals_in_map`
* :c:data:`do_direct_integrals`
* :c:data:`n_pt_max_integrals`
* :c:data:`nucl_coord`
* :c:data:`scf_density_matrix_ao_alpha`
* :c:data:`scf_density_matrix_ao_beta`
Needed by:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`hf_energy`
.. c:var:: extra_e_contrib_density
File : :file:`hartree_fock/hf_energy.irp.f`
.. code:: fortran
double precision :: extra_e_contrib_density
Extra contribution to the SCF energy coming from the density.
For a Hartree-Fock calculation: extra_e_contrib_density = 0
For a Kohn-Sham or Range-separated Kohn-Sham: the exchange/correlation - trace of the V_xc potential
Needed by:
.. hlist::
:columns: 3
* :c:data:`scf_energy`
.. c:var:: fock_matrix_ao_alpha
File : :file:`hartree_fock/fock_matrix_hf.irp.f`
.. code:: fortran
double precision, allocatable :: fock_matrix_ao_alpha (ao_num,ao_num)
double precision, allocatable :: fock_matrix_ao_beta (ao_num,ao_num)
Alpha Fock matrix in AO basis set
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_num`
* :c:data:`ao_one_e_integrals`
* :c:data:`ao_two_e_integral_alpha`
Needed by:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao`
* :c:data:`fock_matrix_mo_alpha`
* :c:data:`fock_matrix_mo_beta`
* :c:data:`scf_energy`
.. c:var:: fock_matrix_ao_beta
File : :file:`hartree_fock/fock_matrix_hf.irp.f`
.. code:: fortran
double precision, allocatable :: fock_matrix_ao_alpha (ao_num,ao_num)
double precision, allocatable :: fock_matrix_ao_beta (ao_num,ao_num)
Alpha Fock matrix in AO basis set
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_num`
* :c:data:`ao_one_e_integrals`
* :c:data:`ao_two_e_integral_alpha`
Needed by:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao`
* :c:data:`fock_matrix_mo_alpha`
* :c:data:`fock_matrix_mo_beta`
* :c:data:`scf_energy`
.. c:var:: hf_energy
File : :file:`hartree_fock/hf_energy.irp.f`
.. code:: fortran
double precision :: hf_energy
double precision :: hf_two_electron_energy
double precision :: hf_one_electron_energy
Hartree-Fock energy containing the nuclear repulsion, and its one- and two-body components.
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_num`
* :c:data:`ao_one_e_integrals`
* :c:data:`ao_two_e_integral_alpha`
* :c:data:`nuclear_repulsion`
* :c:data:`scf_density_matrix_ao_alpha`
* :c:data:`scf_density_matrix_ao_beta`
.. c:var:: hf_one_electron_energy
File : :file:`hartree_fock/hf_energy.irp.f`
.. code:: fortran
double precision :: hf_energy
double precision :: hf_two_electron_energy
double precision :: hf_one_electron_energy
Hartree-Fock energy containing the nuclear repulsion, and its one- and two-body components.
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_num`
* :c:data:`ao_one_e_integrals`
* :c:data:`ao_two_e_integral_alpha`
* :c:data:`nuclear_repulsion`
* :c:data:`scf_density_matrix_ao_alpha`
* :c:data:`scf_density_matrix_ao_beta`
.. c:var:: hf_two_electron_energy
File : :file:`hartree_fock/hf_energy.irp.f`
.. code:: fortran
double precision :: hf_energy
double precision :: hf_two_electron_energy
double precision :: hf_one_electron_energy
Hartree-Fock energy containing the nuclear repulsion, and its one- and two-body components.
Needs:
.. hlist::
:columns: 3
* :c:data:`ao_num`
* :c:data:`ao_one_e_integrals`
* :c:data:`ao_two_e_integral_alpha`
* :c:data:`nuclear_repulsion`
* :c:data:`scf_density_matrix_ao_alpha`
* :c:data:`scf_density_matrix_ao_beta`
Subroutines / functions
-----------------------
.. c:function:: create_guess:
File : :file:`hartree_fock/scf.irp.f`
.. code:: fortran
subroutine create_guess
Create a MO guess if no MOs are present in the EZFIO directory
Needs:
.. hlist::
:columns: 3
* :c:data:`ezfio_filename`
* :c:data:`mo_coef`
* :c:data:`mo_guess_type`
* :c:data:`mo_one_e_integrals`
* :c:data:`ao_ortho_lowdin_coef`
* :c:data:`mo_label`
Called by:
.. hlist::
:columns: 3
* :c:func:`scf`
Calls:
.. hlist::
:columns: 3
* :c:func:`ezfio_has_mo_basis_mo_coef`
* :c:func:`huckel_guess`
* :c:func:`mo_as_eigvectors_of_mo_matrix`
Touches:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`mo_coef`
* :c:data:`mo_label`
.. c:function:: run:
File : :file:`hartree_fock/scf.irp.f`
.. code:: fortran
subroutine run
Run SCF calculation
Needs:
.. hlist::
:columns: 3
* :c:data:`scf_energy`
* :c:data:`mo_label`
Called by:
.. hlist::
:columns: 3
* :c:func:`pt2`
* :c:func:`scf`
Calls:
.. hlist::
:columns: 3
* :c:func:`ezfio_set_hartree_fock_energy`
* :c:func:`roothaan_hall_scf`
Touches:
.. hlist::
:columns: 3
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`fock_matrix_ao_alpha`
* :c:data:`mo_coef`
* :c:data:`level_shift`
* :c:data:`mo_coef`