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quantum_package/plugins/Hartree_Fock/diagonalize_fock.irp.f

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BEGIN_PROVIDER [ double precision, diagonal_Fock_matrix_mo, (ao_num) ]
&BEGIN_PROVIDER [ double precision, eigenvectors_Fock_matrix_mo, (ao_num_align,mo_tot_num) ]
implicit none
BEGIN_DOC
! Diagonal Fock matrix in the MO basis
END_DOC
integer :: i,j
integer :: liwork, lwork, n, info
integer, allocatable :: iwork(:)
double precision, allocatable :: work(:), F(:,:), S(:,:)
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! if (mo_tot_num == ao_num) then
! ! Solve H.C = E.S.C in AO basis set
!
! allocate(F(ao_num_align,ao_num), S(ao_num_align,ao_num) )
! do j=1,ao_num
! do i=1,ao_num
! S(i,j) = ao_overlap(i,j)
! F(i,j) = Fock_matrix_ao(i,j)
! enddo
! enddo
!
! n = ao_num
! lwork = 1+6*n + 2*n*n
! liwork = 3 + 5*n
!
! allocate(work(lwork), iwork(liwork) )
!
! lwork = -1
! liwork = -1
!
! call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&
! diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)
!
! if (info /= 0) then
! print *, irp_here//' failed : ', info
! stop 1
! endif
! lwork = int(work(1))
! liwork = iwork(1)
! deallocate(work,iwork)
! allocate(work(lwork), iwork(liwork) )
!
! call dsygvd(1,'v','u',ao_num,F,size(F,1),S,size(S,1),&
! diagonal_Fock_matrix_mo, work, lwork, iwork, liwork, info)
!
! if (info /= 0) then
! print *, irp_here//' failed : ', info
! stop 1
! endif
! do j=1,mo_tot_num
! do i=1,ao_num
! eigenvectors_Fock_matrix_mo(i,j) = F(i,j)
! enddo
! enddo
!
! deallocate(work, iwork, F, S)
!
! else
!
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! Solve H.C = E.C in MO basis set
allocate( F(mo_tot_num_align,mo_tot_num) )
do j=1,mo_tot_num
do i=1,mo_tot_num
F(i,j) = Fock_matrix_mo(i,j)
enddo
enddo
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! Insert level shift here
do i = elec_alpha_num+1, mo_tot_num
Fock_matrix_mo(i,i) += level_shift
enddo
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n = mo_tot_num
lwork = 1+6*n + 2*n*n
liwork = 3 + 5*n
allocate(work(lwork), iwork(liwork) )
lwork = -1
liwork = -1
call dsyevd( 'V', 'U', mo_tot_num, F, &
size(F,1), diagonal_Fock_matrix_mo, &
work, lwork, iwork, liwork, info)
if (info /= 0) then
print *, irp_here//' failed : ', info
stop 1
endif
lwork = int(work(1))
liwork = iwork(1)
deallocate(work,iwork)
allocate(work(lwork), iwork(liwork) )
call dsyevd( 'V', 'U', mo_tot_num, F, &
size(F,1), diagonal_Fock_matrix_mo, &
work, lwork, iwork, liwork, info)
if (info /= 0) then
print *, irp_here//' failed : ', info
stop 1
endif
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call dgemm('N','N',ao_num,mo_tot_num,mo_tot_num, 1.d0, &
mo_coef, size(mo_coef,1), F, size(F,1), &
0.d0, eigenvectors_Fock_matrix_mo, size(eigenvectors_Fock_matrix_mo,1))
deallocate(work, iwork, F)
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! Remove level shift
do i = elec_alpha_num+1, mo_tot_num
Fock_matrix_mo(i,i) -= level_shift
enddo
! endif
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END_PROVIDER
BEGIN_PROVIDER [double precision, diagonal_Fock_matrix_mo_sum, (mo_tot_num)]
implicit none
BEGIN_DOC
! diagonal element of the fock matrix calculated as the sum over all the interactions
! with all the electrons in the RHF determinant
! diagonal_Fock_matrix_mo_sum(i) = sum_{j=1, N_elec} 2 J_ij -K_ij
END_DOC
integer :: i,j
double precision :: accu
do j = 1,elec_alpha_num
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accu = 0.d0
do i = 1, elec_alpha_num
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accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)
enddo
diagonal_Fock_matrix_mo_sum(j) = accu + mo_mono_elec_integral(j,j)
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enddo
do j = elec_alpha_num+1,mo_tot_num
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accu = 0.d0
do i = 1, elec_alpha_num
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accu += 2.d0 * mo_bielec_integral_jj_from_ao(i,j) - mo_bielec_integral_jj_exchange_from_ao(i,j)
enddo
diagonal_Fock_matrix_mo_sum(j) = accu + mo_mono_elec_integral(j,j)
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enddo
END_PROVIDER