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375 lines
13 KiB
ReStructuredText
375 lines
13 KiB
ReStructuredText
===================
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Perturbation Module
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===================
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All subroutines in `*.irp.f` starting with ``pt2_`` in the current directory are
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perturbation computed using the routine ``i_H_psi``. Other cases are not allowed.
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The arguments of the ``pt2_`` are always:
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subroutine pt2_...( &
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psi_ref, &
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psi_ref_coefs, &
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E_refs, &
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det_pert, &
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c_pert, &
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e_2_pert, &
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H_pert_diag, &
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Nint, &
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ndet, &
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n_st )
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integer, intent(in) :: Nint,ndet,n_st
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integer(bit_kind), intent(in) :: psi_ref(Nint,2,ndet)
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double precision , intent(in) :: psi_ref_coefs(ndet,n_st)
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double precision , intent(in) :: E_refs(n_st)
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integer(bit_kind), intent(in) :: det_pert(Nint,2)
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double precision , intent(out) :: c_pert(n_st),e_2_pert(n_st),H_pert_diag
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psi_ref
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bitstring of the determinants present in the various n_st states
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psi_ref_coefs
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coefficients of the determinants on the various n_st states
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E_refs
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Energy of the various n_st states
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det_pert
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Perturber determinant
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c_pert
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Pertrubative coefficients for the various states
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e_2_pert
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Perturbative energetic contribution for the various states
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H_pert_diag
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Diagonal H matrix element of the perturber
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Nint
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Should be equal to N_int
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Ndet
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Number of determinants `i` in Psi on which we apply <det_pert|Hi>
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N_st
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Number of states
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Assumptions
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===========
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* This is not allowed:
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subroutine &
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pt2_....
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Needed Modules
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==============
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.. Do not edit this section It was auto-generated
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.. by the `update_README.py` script.
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.. image:: tree_dependency.png
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* `Properties <http://github.com/LCPQ/quantum_package/tree/master/src/Properties>`_
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* `Hartree_Fock <http://github.com/LCPQ/quantum_package/tree/master/src/Hartree_Fock>`_
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Needed Modules
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==============
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.. Do not edit this section It was auto-generated
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.. by the `update_README.py` script.
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.. image:: tree_dependency.png
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* `Properties <http://github.com/LCPQ/quantum_package/tree/master/plugins/Properties>`_
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* `Hartree_Fock <http://github.com/LCPQ/quantum_package/tree/master/plugins/Hartree_Fock>`_
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Documentation
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=============
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.. Do not edit this section It was auto-generated
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.. by the `update_README.py` script.
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`do_pt2_end <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/ezfio_interface.irp.f#L6>`_
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If true, compute the PT2 at the end of the selection
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`fill_h_apply_buffer_selection <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/selection.irp.f#L1>`_
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Fill the H_apply buffer with determiants for the selection
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`max_exc_pert <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/exc_max.irp.f#L1>`_
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Undocumented
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perturb_buffer_by_mono_delta_rho_one_point
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Applly pertubration ``delta_rho_one_point`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_dipole_moment_z
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Applly pertubration ``dipole_moment_z`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_epstein_nesbet
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Applly pertubration ``epstein_nesbet`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_epstein_nesbet_2x2
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Applly pertubration ``epstein_nesbet_2x2`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_epstein_nesbet_sc2
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Applly pertubration ``epstein_nesbet_sc2`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_epstein_nesbet_sc2_no_projected
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Applly pertubration ``epstein_nesbet_sc2_no_projected`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_epstein_nesbet_sc2_projected
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Applly pertubration ``epstein_nesbet_sc2_projected`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_h_core
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Applly pertubration ``h_core`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_by_mono_moller_plesset
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Applly pertubration ``moller_plesset`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_delta_rho_one_point
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Applly pertubration ``delta_rho_one_point`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_dipole_moment_z
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Applly pertubration ``dipole_moment_z`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_epstein_nesbet
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Applly pertubration ``epstein_nesbet`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_epstein_nesbet_2x2
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Applly pertubration ``epstein_nesbet_2x2`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_epstein_nesbet_sc2
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Applly pertubration ``epstein_nesbet_sc2`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_epstein_nesbet_sc2_no_projected
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Applly pertubration ``epstein_nesbet_sc2_no_projected`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_epstein_nesbet_sc2_projected
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Applly pertubration ``epstein_nesbet_sc2_projected`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_h_core
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Applly pertubration ``h_core`` to the buffer of determinants generated in the H_apply
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routine.
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perturb_buffer_moller_plesset
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Applly pertubration ``moller_plesset`` to the buffer of determinants generated in the H_apply
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routine.
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`pt2_delta_rho_one_point <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/delta_rho_perturbation.irp.f#L1>`_
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compute the perturbatibe contribution to the Integrated Spin density at z = z_one point of one determinant
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.br
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for the various n_st states, at various level of theory.
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.br
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c_pert(i) = <psi(i)|H|det_pert>/(<psi(i)|H|psi(i)> - <det_pert|H|det_pert>)
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.br
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e_2_pert(i) = c_pert(i) * <det_pert|O|psi(i)>
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.br
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H_pert_diag(i) = c_pert(i)^2 * <det_pert|O|det_pert>
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.br
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To get the contribution of the first order :
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.br
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<O_1> = sum(over i) e_2_pert(i)
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.br
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To get the contribution of the diagonal elements of the second order :
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.br
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[ <O_0> + <O_1> + sum(over i) H_pert_diag(i) ] / [1. + sum(over i) c_pert(i) **2]
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.br
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`pt2_dipole_moment_z <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/dipole_moment.irp.f#L1>`_
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compute the perturbatibe contribution to the dipole moment of one determinant
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.br
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for the various n_st states, at various level of theory.
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.br
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c_pert(i) = <psi(i)|H|det_pert>/(<psi(i)|H|psi(i)> - <det_pert|H|det_pert>)
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.br
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e_2_pert(i) = c_pert(i) * <det_pert|Z|psi(i)>
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.br
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H_pert_diag(i) = c_pert(i)^2 * <det_pert|Z|det_pert>
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.br
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To get the contribution of the first order :
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.br
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<Z_1> = sum(over i) e_2_pert(i)
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.br
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To get the contribution of the diagonal elements of the second order :
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.br
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[ <Z_0> + <Z_1> + sum(over i) H_pert_diag(i) ] / [1. + sum(over i) c_pert(i) **2]
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.br
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`pt2_epstein_nesbet <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L3>`_
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compute the standard Epstein-Nesbet perturbative first order coefficient and second order energetic contribution
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.br
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for the various N_st states.
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.br
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c_pert(i) = <psi(i)|H|det_pert>/( E(i) - <det_pert|H|det_pert> )
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.br
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e_2_pert(i) = <psi(i)|H|det_pert>^2/( E(i) - <det_pert|H|det_pert> )
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.br
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`pt2_epstein_nesbet_2x2 <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L59>`_
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compute the Epstein-Nesbet 2x2 diagonalization coefficient and energetic contribution
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.br
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for the various N_st states.
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.br
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e_2_pert(i) = 0.5 * (( <det_pert|H|det_pert> - E(i) ) - sqrt( ( <det_pert|H|det_pert> - E(i)) ^2 + 4 <psi(i)|H|det_pert>^2 )
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.br
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c_pert(i) = e_2_pert(i)/ <psi(i)|H|det_pert>
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.br
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`pt2_epstein_nesbet_sc2 <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L353>`_
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compute the standard Epstein-Nesbet perturbative first order coefficient and second order energetic contribution
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.br
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for the various N_st states, but with the CISD_SC2 energies and coefficients
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.br
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c_pert(i) = <psi(i)|H|det_pert>/( E(i) - <det_pert|H|det_pert> )
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.br
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e_2_pert(i) = <psi(i)|H|det_pert>^2/( E(i) - <det_pert|H|det_pert> )
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.br
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`pt2_epstein_nesbet_sc2_no_projected <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L275>`_
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compute the Epstein-Nesbet perturbative first order coefficient and second order energetic contribution
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.br
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for the various N_st states,
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.br
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but with the correction in the denominator
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.br
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comming from the interaction of that determinant with all the others determinants
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.br
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that can be repeated by repeating all the double excitations
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.br
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: you repeat all the correlation energy already taken into account in CI_electronic_energy(1)
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.br
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that could be repeated to this determinant.
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.br
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In addition, for the perturbative energetic contribution you have the standard second order
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.br
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e_2_pert = <psi_i|H|det_pert>^2/(Delta_E)
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.br
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and also the purely projected contribution
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.br
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H_pert_diag = <HF|H|det_pert> c_pert
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`pt2_epstein_nesbet_sc2_projected <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L181>`_
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compute the Epstein-Nesbet perturbative first order coefficient and second order energetic contribution
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.br
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for the various N_st states,
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.br
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but with the correction in the denominator
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.br
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comming from the interaction of that determinant with all the others determinants
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.br
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that can be repeated by repeating all the double excitations
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.br
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: you repeat all the correlation energy already taken into account in CI_electronic_energy(1)
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.br
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that could be repeated to this determinant.
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.br
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In addition, for the perturbative energetic contribution you have the standard second order
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.br
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e_2_pert = <psi_i|H|det_pert>^2/(Delta_E)
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.br
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and also the purely projected contribution
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.br
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H_pert_diag = <HF|H|det_pert> c_pert
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`pt2_h_core <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pert_single.irp.f#L1>`_
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compute the standard Epstein-Nesbet perturbative first order coefficient and second order energetic contribution
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.br
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for the various N_st states.
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.br
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c_pert(i) = <psi(i)|H|det_pert>/( E(i) - <det_pert|H|det_pert> )
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.br
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e_2_pert(i) = <psi(i)|H|det_pert>^2/( E(i) - <det_pert|H|det_pert> )
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.br
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`pt2_max <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/ezfio_interface.irp.f#L28>`_
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The selection process stops when the largest PT2 (for all the state) is lower
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than pt2_max in absolute value
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`pt2_moller_plesset <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pt2_equations.irp.f_template_363#L120>`_
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compute the standard Moller-Plesset perturbative first order coefficient and second order energetic contribution
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.br
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for the various n_st states.
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.br
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c_pert(i) = <psi(i)|H|det_pert>/(difference of orbital energies)
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.br
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e_2_pert(i) = <psi(i)|H|det_pert>^2/(difference of orbital energies)
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.br
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`remove_small_contributions <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/selection.irp.f#L87>`_
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Remove determinants with small contributions. N_states is assumed to be
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provided.
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`repeat_all_e_corr <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/pert_sc2.irp.f#L1>`_
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Undocumented
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`selection_criterion <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/selection.irp.f#L74>`_
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Threshold to select determinants. Set by selection routines.
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`selection_criterion_factor <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/selection.irp.f#L76>`_
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Threshold to select determinants. Set by selection routines.
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`selection_criterion_min <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/selection.irp.f#L75>`_
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Threshold to select determinants. Set by selection routines.
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`var_pt2_ratio <http://github.com/LCPQ/quantum_package/tree/master/plugins/Perturbation/ezfio_interface.irp.f#L51>`_
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The selection process stops when the energy ratio variational/(variational+PT2)
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is equal to var_pt2_ratio
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