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added regular_range_Hartree_operator
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@ -5,6 +5,7 @@ BEGIN_PROVIDER [integer, n_points_final_grid]
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END_DOC
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integer :: i,j,k,l
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n_points_final_grid = 0
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print*,'tresh_grid = ',tresh_grid
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do j = 1, nucl_num
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do i = 1, n_points_radial_grid -1
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do k = 1, n_points_integration_angular
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@ -36,6 +37,7 @@ END_PROVIDER
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integer :: i,j,k,l,i_count
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double precision :: r(3)
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i_count = 0
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print*,'tresh_grid = ',tresh_grid
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do j = 1, nucl_num
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do i = 1, n_points_radial_grid -1
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do k = 1, n_points_integration_angular
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@ -35,3 +35,40 @@
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short_range_Hartree = short_range_Hartree * 0.5d0
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print*, 'short_range_Hartree',short_range_Hartree
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END_PROVIDER
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BEGIN_PROVIDER [double precision, regular_range_Hartree_operator, (mo_num,mo_num,N_states)]
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&BEGIN_PROVIDER [double precision, regular_range_Hartree, (N_states)]
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implicit none
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BEGIN_DOC
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! regular_range_Hartree_operator(i,j) = $\int dr i(r)j(r) \int r' \rho(r') W_{ee}^{sr}$
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!
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! regular_range_Hartree = $1/2 \sum_{i,j} \rho_{ij} \mathtt{regular_range_Hartree_operator}(i,j)$
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!
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! = $1/2 \int dr \int r' \rho(r) \rho(r') W_{ee}^{sr}$
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END_DOC
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integer :: i,j,k,l,m,n,istate
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double precision :: get_two_e_integral
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double precision :: integral, contrib
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double precision :: integrals_array(mo_num,mo_num)
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regular_range_Hartree_operator = 0.d0
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regular_range_Hartree = 0.d0
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do i = 1, mo_num
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do j = 1, mo_num
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if(dabs(one_e_dm_average_mo_for_dft(j,i)).le.1.d-12)cycle
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call get_mo_two_e_integrals_i1j1(i,j,mo_num,integrals_array,mo_integrals_map)
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do istate = 1, N_states
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do k = 1, mo_num
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do l = 1, mo_num
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integral = integrals_array(l,k)
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contrib = one_e_dm_mo_for_dft(i,j,istate) * integral
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regular_range_Hartree_operator(l,k,istate) += contrib
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regular_range_Hartree(istate) += contrib * one_e_dm_mo_for_dft(k,l,istate)
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enddo
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enddo
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enddo
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enddo
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enddo
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regular_range_Hartree = regular_range_Hartree * 0.5d0
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print*, 'regular_range_Hartree',regular_range_Hartree
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END_PROVIDER
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