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v0 of tc-dRPA
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@ -1944,6 +1944,7 @@ subroutine check_orthog(n, m, V, accu_d, accu_nd, S)
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end subroutine check_orthog
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! ---
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subroutine reorder_degen_eigvec(n, e0, L0, R0)
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implicit none
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@ -1953,7 +1954,7 @@ subroutine reorder_degen_eigvec(n, e0, L0, R0)
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double precision, intent(inout) :: L0(n,n), R0(n,n)
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logical :: complex_root
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integer :: i, j, k, m
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integer :: i, j, k, m, ii
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double precision :: ei, ej, de, de_thr
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double precision :: accu_d, accu_nd
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integer, allocatable :: deg_num(:)
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@ -1986,11 +1987,18 @@ subroutine reorder_degen_eigvec(n, e0, L0, R0)
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enddo
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enddo
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ii = 0
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do i = 1, n
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if(deg_num(i) .gt. 1) then
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print *, ' degen on', i, deg_num(i), e0(i)
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ii = ii + 1
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endif
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enddo
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if(ii .eq. 0) then
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print*, ' WARNING: bi-orthogonality is lost but there is no degeneracies'
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print*, ' rotations may change energy'
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endif
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print *, ii, ' type of degeneracies'
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! ---
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@ -2013,7 +2021,7 @@ subroutine reorder_degen_eigvec(n, e0, L0, R0)
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print*,'Overlap matrix '
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accu_nd = 0.D0
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do j = 1, m
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write(*,'(100(F16.10,X))')S(1:m,j)
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write(*,'(100(F16.10,X))') S(1:m,j)
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do k = 1, m
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if(j==k)cycle
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accu_nd += dabs(S(j,k))
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38
src/tc_bi_ortho/ORBITALS.irp.f
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38
src/tc_bi_ortho/ORBITALS.irp.f
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@ -0,0 +1,38 @@
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! ---
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BEGIN_PROVIDER [integer, nC_orb]
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&BEGIN_PROVIDER [integer, nO_orb]
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&BEGIN_PROVIDER [integer, nV_orb]
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&BEGIN_PROVIDER [integer, nR_orb]
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&BEGIN_PROVIDER [integer, nS_exc]
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BEGIN_DOC
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!
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! nC_orb = number of core orbitals
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! nO_orb = number of occupied orbitals
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! nV_orb = number of virtual orbitals
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! nR_orb = number of Rydberg orbitals
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! nS_exc = number of single excitation
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!
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END_DOC
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implicit none
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nC_orb = 0
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nO_orb = elec_beta_num - nC_orb
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nV_orb = mo_num - (nC_orb + nO_orb)
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nR_orb = 0
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nS_exc = (nO_orb-nC_orb) * (nV_orb-nR_orb)
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print *, ' nC_orb = ', nC_orb
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print *, ' nO_orb = ', nO_orb
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print *, ' nV_orb = ', nV_orb
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print *, ' nR_orb = ', nR_orb
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print *, ' nS_exc = ', nS_exc
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END_PROVIDER
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! ---
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116
src/tc_bi_ortho/drpa_matrix.irp.f
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116
src/tc_bi_ortho/drpa_matrix.irp.f
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@ -0,0 +1,116 @@
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BEGIN_PROVIDER [double precision, M_RPA, (2*nS_exc, 2*nS_exc)]
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BEGIN_DOC
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!
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! full matrix for direct RPA calculation
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! with the TC-Hamiltonian
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!
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END_DOC
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implicit none
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integer :: ia, i, a, jb, j, b
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double precision :: e(mo_num)
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double precision, external :: Kronecker_delta
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PROVIDE mo_tc_effec2e_int
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PROVIDE Fock_matrix_tc_diag_mo_tot
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e(1:mo_num) = Fock_matrix_tc_diag_mo_tot(1:mo_num)
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! --- --- ---
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! block A
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ia = 0
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do i = nC_orb+1, nO_orb
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do a = nO_orb+1, mo_num-nR_orb
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ia = ia + 1
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jb = 0
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do j = nC_orb+1, nO_orb
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do b = nO_orb+1, mo_num-nR_orb
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jb = jb + 1
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M_RPA(ia,jb) = (e(a) - e(i)) * Kronecker_delta(i,j) * Kronecker_delta(a,b) + 2.d0 * mo_tc_effec2e_int(a,j,i,b)
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enddo
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enddo
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enddo
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enddo
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!
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! --- --- ---
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! --- --- ---
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! block B
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ia = 0
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do i = nC_orb+1, nO_orb
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do a = nO_orb+1, mo_num-nR_orb
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ia = ia + 1
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jb = nS_exc
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do j = nC_orb+1, nO_orb
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do b = nO_orb+1, mo_num-nR_orb
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jb = jb + 1
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M_RPA(ia,jb) = 2.d0 * mo_tc_effec2e_int(a,b,i,j)
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enddo
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enddo
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enddo
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enddo
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!
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! --- --- ---
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! --- --- ---
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! block C
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ia = nS_exc
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do i = nC_orb+1, nO_orb
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do a = nO_orb+1, mo_num-nR_orb
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ia = ia + 1
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jb = 0
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do j = nC_orb+1, nO_orb
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do b = nO_orb+1, mo_num-nR_orb
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jb = jb + 1
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M_RPA(ia,jb) = 2.d0 * mo_tc_effec2e_int(i,j,a,b)
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enddo
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enddo
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enddo
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enddo
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!
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! --- --- ---
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! --- --- ---
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! block D
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ia = nS_exc
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do i = nC_orb+1, nO_orb
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do a = nO_orb+1, mo_num-nR_orb
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ia = ia + 1
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jb = nS_exc
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do j = nC_orb+1, nO_orb
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do b = nO_orb+1, mo_num-nR_orb
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jb = jb + 1
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M_RPA(ia,jb) = (e(a) - e(i)) * Kronecker_delta(i,j) * Kronecker_delta(a,b) + 2.d0 * mo_tc_effec2e_int(i,b,a,j)
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enddo
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enddo
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enddo
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enddo
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!
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! --- --- ---
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END_PROVIDER
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39
src/tc_bi_ortho/tc_effect_int.irp.f
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39
src/tc_bi_ortho/tc_effect_int.irp.f
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@ -0,0 +1,39 @@
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BEGIN_PROVIDER [double precision, mo_tc_effec2e_int, (mo_num, mo_num, mo_num, mo_num)]
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BEGIN_DOC
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!
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! mo_tc_effec2e_int(p,q,s,t) = < p q| V(12) | s t > + \sum_i < p q i | L(123)| s t i >
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!
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! the potential V(12) contains ALL TWO-E CONTRIBUTION OF THE TC-HAMILTONIAN
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!
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END_DOC
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implicit none
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integer :: i, j, k, l, ii
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double precision :: integral
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PROVIDE mo_bi_ortho_tc_two_e_chemist
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do j = 1, mo_num
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do i = 1, mo_num
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do l = 1, mo_num
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do k = 1, mo_num
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mo_tc_effec2e_int(k,l,i,j) = mo_bi_ortho_tc_two_e_chemist(k,i,l,j)
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do ii = 1, elec_alpha_num
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call give_integrals_3_body_bi_ort(k, l, ii, i, j, ii, integral)
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mo_tc_effec2e_int(k,l,i,j) -= 2.d0 * integral
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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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FREE mo_bi_ortho_tc_two_e_chemist
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END_PROVIDER
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! ---
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181
src/tc_bi_ortho/tc_rpa.irp.f
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181
src/tc_bi_ortho/tc_rpa.irp.f
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@ -0,0 +1,181 @@
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program tc_rpa
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BEGIN_DOC
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!
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!
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!
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END_DOC
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my_grid_becke = .True.
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PROVIDE tc_grid1_a tc_grid1_r
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my_n_pt_r_grid = tc_grid1_r
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my_n_pt_a_grid = tc_grid1_a
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touch my_grid_becke my_n_pt_r_grid my_n_pt_a_grid
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if(j1b_type .ge. 100) then
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my_extra_grid_becke = .True.
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PROVIDE tc_grid2_a tc_grid2_r
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my_n_pt_r_extra_grid = tc_grid2_r
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my_n_pt_a_extra_grid = tc_grid2_a
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touch my_extra_grid_becke my_n_pt_r_extra_grid my_n_pt_a_extra_grid
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call write_int(6, my_n_pt_r_extra_grid, 'radial internal grid over')
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call write_int(6, my_n_pt_a_extra_grid, 'angular internal grid over')
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endif
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call main()
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end
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! ---
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subroutine main()
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implicit none
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integer :: i, j, n
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integer :: n_good, n_real_eigv
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double precision :: thr_cpx, thr_d, thr_nd
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double precision :: accu_d, accu_nd
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integer, allocatable :: list_good(:), iorder(:)
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double precision, allocatable :: WR(:), WI(:), VL(:,:), VR(:,:)
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double precision, allocatable :: Omega_p(:), Reigvec_p(:,:), Leigvec_p(:,:)
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double precision, allocatable :: Omega_m(:), Reigvec_m(:,:), Leigvec_m(:,:)
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double precision, allocatable :: S(:,:)
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PROVIDE M_RPA
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print *, ' '
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print *, ' Computing left/right eigenvectors for TC-RPA ...'
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print *, ' '
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n = 2 * nS_exc
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thr_cpx = 1d-7
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thr_d = 1d-07
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thr_nd = 1d-07
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allocate(WR(n), WI(n), VL(n,n), VR(n,n))
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call lapack_diag_non_sym(n, M_RPA, WR, WI, VL, VR)
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FREE M_RPA
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print *, ' excitation energies:'
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do i = 1, nS_exc
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write(*, '(I3, X, 1000(F16.10,X))') i, WR(i), WI(i)
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if(dabs(WI(i)) .gt. thr_cpx) then
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print *, ' WARNING ! IMAGINARY EIGENVALUES !!!'
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write(*, '(1000(F16.10,X))') WR(i), WI(i+1)
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endif
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enddo
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print *, ' '
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print *, ' desexcitation energies:'
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do i = nS_exc+1, n
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write(*, '(I3, X, 1000(F16.10,X))') i, WR(i), WI(i)
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if(dabs(WI(i)) .gt. thr_cpx) then
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print *, ' WARNING ! IMAGINARY EIGENVALUES !!!'
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write(*, '(1000(F16.10,X))') WR(i), WI(i+1)
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endif
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enddo
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! track & sort the real eigenvalues
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n_good = 0
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do i = 1, nS_exc
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if(dabs(WI(i)) .lt. thr_cpx) then
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if(dabs(WI(nS_exc+i)) .lt. thr_cpx) then
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n_good += 1
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endif
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endif
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enddo
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n_real_eigv = n_good
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print *, ' '
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print *, ' nb of real eigenvalues = ', n_real_eigv
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print *, ' total nb of eigenvalues = ', nS_exc
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allocate(Omega_p(n_real_eigv), Reigvec_p(n,n_real_eigv), Leigvec_p(n,n_real_eigv))
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allocate(Omega_m(n_real_eigv), Reigvec_m(n,n_real_eigv), Leigvec_m(n,n_real_eigv))
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n_good = 0
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do i = 1, nS_exc
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if(dabs(WI(i)) .lt. thr_cpx) then
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if(dabs(WI(nS_exc+i)) .lt. thr_cpx) then
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n_good += 1
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Omega_p(n_good) = WR(i)
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do j = 1, n
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Reigvec_p(j,n_good) = VR(j,n_good)
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Leigvec_p(j,n_good) = VL(j,n_good)
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enddo
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Omega_m(n_good) = WR(nS_exc+i)
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do j = 1, n
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Reigvec_m(j,n_good) = VR(j,nS_exc+n_good)
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Leigvec_m(j,n_good) = VL(j,nS_exc+n_good)
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enddo
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endif
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endif
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enddo
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deallocate(WR, WI, VL, VR)
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! check bi-orthogonality
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! first block
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allocate(S(n_real_eigv,n_real_eigv))
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call check_biorthog(n, n_real_eigv, Leigvec_p, Reigvec_p, accu_d, accu_nd, S, thr_d, thr_nd, .false.)
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print *, ' accu_d = ', accu_d
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print *, ' accu_nd = ', accu_nd
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if((accu_nd .lt. thr_nd) .and. (dabs(accu_d-dble(n_real_eigv))/dble(n_real_eigv) .lt. thr_d)) then
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print *, ' RPA first-block eigenvectors are normalized and bi-orthogonalized'
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else
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print *, ' RPA first-block eigenvectors are neither normalized nor bi-orthogonalized'
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call reorder_degen_eigvec(n, Omega_p, Leigvec_p, Reigvec_p)
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call impose_biorthog_degen_eigvec(n, Omega_p, Leigvec_p, Reigvec_p)
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call check_biorthog(n, n_real_eigv, Leigvec_p, Reigvec_p, accu_d, accu_nd, S, thr_d, thr_nd, .false.)
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if( (accu_nd .lt. thr_nd) .and. (dabs(accu_d-dble(n_real_eigv)) .gt. thr_d) ) then
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call check_biorthog_binormalize(n, n_real_eigv, Leigvec_p, Reigvec_p, thr_d, thr_nd, .true.)
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endif
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call check_biorthog(n, n_real_eigv, Leigvec_p, Reigvec_p, accu_d, accu_nd, S, thr_d, thr_nd, .true.)
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endif
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! second block
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call check_biorthog(n, n_real_eigv, Leigvec_m, Reigvec_m, accu_d, accu_nd, S, thr_d, thr_nd, .false.)
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print *, ' accu_d = ', accu_d
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print *, ' accu_nd = ', accu_nd
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if((accu_nd .lt. thr_nd) .and. (dabs(accu_d-dble(n_real_eigv))/dble(n_real_eigv) .lt. thr_d)) then
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print *, ' RPA first-block eigenvectors are normalized and bi-orthogonalized'
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else
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print *, ' RPA first-block eigenvectors are neither normalized nor bi-orthogonalized'
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call reorder_degen_eigvec(n, Omega_m, Leigvec_m, Reigvec_m)
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call impose_biorthog_degen_eigvec(n, Omega_m, Leigvec_m, Reigvec_m)
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call check_biorthog(n, n_real_eigv, Leigvec_m, Reigvec_m, accu_d, accu_nd, S, thr_d, thr_nd, .false.)
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if( (accu_nd .lt. thr_nd) .and. (dabs(accu_d-dble(n_real_eigv)) .gt. thr_d) ) then
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call check_biorthog_binormalize(n, n_real_eigv, Leigvec_m, Reigvec_m, thr_d, thr_nd, .true.)
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endif
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call check_biorthog(n, n_real_eigv, Leigvec_m, Reigvec_m, accu_d, accu_nd, S, thr_d, thr_nd, .true.)
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endif
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deallocate(S)
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return
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end
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! ---
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@ -580,4 +580,23 @@ end function is_same_spin
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! ---
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function Kronecker_delta(i, j) result(delta)
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BEGIN_DOC
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! Kronecker Delta
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END_DOC
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implicit none
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integer, intent(in) :: i, j
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double precision :: delta
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if(i == j) then
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delta = 1.d0
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else
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delta = 0.d0
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endif
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end function Kronecker_delta
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! ---
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