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modifs in json and diagonalize_ci for fci tc bi
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@ -980,8 +980,11 @@ subroutine fill_buffer_double(i_generator, sp, h1, h2, bannedOrb, banned, fock_d
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psi_h_alpha = mat_l(istate, p1, p2)
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pt2_data % overlap(:,istate) = pt2_data % overlap(:,istate) + coef(:) * coef(istate)
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pt2_data % variance(istate) = pt2_data % variance(istate) + dabs(e_pert(istate))
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pt2_data % pt2(istate) = pt2_data % pt2(istate) + e_pert(istate)
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if(e_pert(istate).gt.0.d0)then! accumulate the positive part of the pt2
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pt2_data % variance(istate) = pt2_data % variance(istate) + e_pert(istate)
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else ! accumulate the negative part of the pt2
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pt2_data % pt2(istate) = pt2_data % pt2(istate) + e_pert(istate)
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endif
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select case (weight_selection)
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case(5)
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@ -57,7 +57,6 @@ subroutine run_stochastic_cipsi
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! endif
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print_pt2 = .False.
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call diagonalize_CI_tc_bi_ortho(ndet, E_tc, norm, pt2_data, print_pt2)
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! call routine_save_right
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! if (N_det > N_det_max) then
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@ -9,6 +9,8 @@ subroutine write_cipsi_json(pt2_data, pt2_data_err)
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call lock_io
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character*(64), allocatable :: fmtk(:)
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double precision:: pt2_minus,pt2_plus,pt2_tot, pt2_abs
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double precision :: error_pt2_minus, error_pt2_plus, error_pt2_tot, error_pt2_abs
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integer :: N_states_p, N_iter_p
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N_states_p = min(N_states,N_det)
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N_iter_p = min(N_iter,8)
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@ -26,15 +28,34 @@ subroutine write_cipsi_json(pt2_data, pt2_data_err)
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endif
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write(json_unit, json_array_open_fmt) 'states'
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do k=1,N_states_p
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pt2_plus = pt2_data % variance(k)
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pt2_minus = pt2_data % pt2(k)
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pt2_abs = pt2_plus - pt2_minus
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pt2_tot = pt2_plus + pt2_minus
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error_pt2_minus = pt2_data_err % pt2(k)
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error_pt2_plus = pt2_data_err % variance(k)
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error_pt2_tot = dsqrt(error_pt2_minus**2+error_pt2_plus**2)
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error_pt2_abs = error_pt2_tot ! same variance because independent variables
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write(json_unit, json_dict_uopen_fmt)
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write(json_unit, json_real_fmt) 'energy', psi_energy_with_nucl_rep(k)
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write(json_unit, json_real_fmt) 's2', psi_s2(k)
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write(json_unit, json_real_fmt) 'pt2', pt2_data % pt2(k)
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write(json_unit, json_real_fmt) 'pt2_err', pt2_data_err % pt2(k)
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write(json_unit, json_real_fmt) 'pt2', pt2_tot
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write(json_unit, json_real_fmt) 'pt2_err', error_pt2_tot
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write(json_unit, json_real_fmt) 'pt2_minus', pt2_minus
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write(json_unit, json_real_fmt) 'pt2_minus_err', error_pt2_minus
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write(json_unit, json_real_fmt) 'pt2_abs', pt2_abs
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write(json_unit, json_real_fmt) 'pt2_abs_err', error_pt2_abs
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write(json_unit, json_real_fmt) 'pt2_plus', pt2_plus
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write(json_unit, json_real_fmt) 'pt2_plus_err', error_pt2_plus
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write(json_unit, json_real_fmt) 'rpt2', pt2_data % rpt2(k)
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write(json_unit, json_real_fmt) 'rpt2_err', pt2_data_err % rpt2(k)
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write(json_unit, json_real_fmt) 'variance', pt2_data % variance(k)
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write(json_unit, json_real_fmt) 'variance_err', pt2_data_err % variance(k)
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! write(json_unit, json_real_fmt) 'variance', pt2_data % variance(k)
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! write(json_unit, json_real_fmt) 'variance_err', pt2_data_err % variance(k)
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write(json_unit, json_array_open_fmt) 'ex_energy'
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do i=2,N_iter_p
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write(json_unit, fmtk(i)) extrapolated_energy(i,k)
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@ -11,49 +11,61 @@ subroutine diagonalize_CI_tc_bi_ortho(ndet, E_tc, norm, pt2_data, print_pt2)
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use selection_types
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implicit none
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integer, intent(inout) :: ndet ! number of determinants from before
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double precision, intent(inout) :: E_tc, norm ! E and norm from previous wave function
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double precision, intent(inout) :: E_tc(N_states), norm(N_states) ! E and norm from previous wave function
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type(pt2_type) , intent(in) :: pt2_data ! PT2 from previous wave function
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logical, intent(in) :: print_pt2
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integer :: i, j
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double precision :: pt2_tmp, pt1_norm, rpt2_tmp, abs_pt2
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integer :: i, j,k
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double precision:: pt2_minus,pt2_plus,pt2_tot, pt2_abs,pt1_norm,rpt2_tot
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double precision :: error_pt2_minus, error_pt2_plus, error_pt2_tot, error_pt2_abs
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PROVIDE mo_l_coef mo_r_coef
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pt2_tmp = pt2_data % pt2(1)
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abs_pt2 = pt2_data % variance(1)
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pt1_norm = pt2_data % overlap(1,1)
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rpt2_tmp = pt2_tmp/(1.d0 + pt1_norm)
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print*,'*****'
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print*,'New wave function information'
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print*,'N_det tc = ',N_det
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print*,'norm_ground_left_right_bi_orth = ',norm_ground_left_right_bi_orth
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print*,'eigval_right_tc = ',eigval_right_tc_bi_orth(1)
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print*,'Ndet, E_tc = ',N_det,eigval_right_tc_bi_orth(1)
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print*,'*****'
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if(print_pt2) then
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print*,'*****'
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print*,'previous wave function info'
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print*,'norm(before) = ',norm
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print*,'E(before) = ',E_tc
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print*,'PT1 norm = ',dsqrt(pt1_norm)
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print*,'PT2 = ',pt2_tmp
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print*,'rPT2 = ',rpt2_tmp
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print*,'|PT2| = ',abs_pt2
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print*,'Positive PT2 = ',(pt2_tmp + abs_pt2)*0.5d0
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print*,'Negative PT2 = ',(pt2_tmp - abs_pt2)*0.5d0
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print*,'E(before) + PT2 = ',E_tc + pt2_tmp/norm
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print*,'E(before) +rPT2 = ',E_tc + rpt2_tmp/norm
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write(*,'(A28,X,I10,X,100(F16.8,X))')'Ndet,E,E+PT2,E+RPT2,|PT2|=',ndet,E_tc ,E_tc + pt2_tmp/norm,E_tc + rpt2_tmp/norm,abs_pt2
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print*,'*****'
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endif
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do k = 1, N_states
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print*,'************'
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print*,'State ',k
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pt2_plus = pt2_data % variance(k)
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pt2_minus = pt2_data % pt2(k)
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pt2_abs = pt2_plus - pt2_minus
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pt2_tot = pt2_plus + pt2_minus
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! error_pt2_minus = pt2_data_err % pt2(k)
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! error_pt2_plus = pt2_data_err % variance(k)
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! error_pt2_tot = dsqrt(error_pt2_minus**2+error_pt2_plus**2)
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! error_pt2_abs = error_pt2_tot ! same variance because independent variables
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pt1_norm = pt2_data % overlap(k,k)
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rpt2_tot = pt2_tot / (1.d0 + pt1_norm)
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print*,'norm_ground_left_right_bi_orth = ',norm_ground_left_right_bi_orth(k)
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print*,'eigval_right_tc = ',eigval_right_tc_bi_orth(k)
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print*,'*****'
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if(print_pt2) then
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print*,'*****'
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print*,'previous wave function info'
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print*,'norm(before) = ',norm
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print*,'E(before) = ',E_tc
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print*,'PT1 norm = ',dsqrt(pt1_norm)
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print*,'PT2 = ',pt2_tot
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print*,'rPT2 = ',rpt2_tot
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print*,'|PT2| = ',pt2_abs
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print*,'Positive PT2 = ',pt2_plus
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print*,'Negative PT2 = ',pt2_minus
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print*,'E(before) + PT2 = ',E_tc + pt2_tot/norm
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print*,'E(before) +rPT2 = ',E_tc + rpt2_tot/norm
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write(*,'(A28,X,I10,X,100(F16.8,X))')'Ndet,E,E+PT2,E+RPT2,|PT2|=',ndet,E_tc ,E_tc + pt2_tot/norm,E_tc + rpt2_tot/norm,pt2_minus, pt2_plus
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print*,'*****'
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endif
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E_tc(k) = eigval_right_tc_bi_orth(k)
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norm(k) = norm_ground_left_right_bi_orth(k)
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enddo
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psi_energy(1:N_states) = eigval_right_tc_bi_orth(1:N_states) - nuclear_repulsion
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psi_s2(1:N_states) = s2_eigvec_tc_bi_orth(1:N_states)
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E_tc = eigval_right_tc_bi_orth(1)
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norm = norm_ground_left_right_bi_orth
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ndet = N_det
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do j = 1, N_states
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do i = 1, N_det
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@ -71,53 +83,3 @@ end
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! ---
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subroutine print_CI_dressed(ndet, E_tc, norm, pt2_data, print_pt2)
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BEGIN_DOC
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! Replace the coefficients of the CI states by the coefficients of the
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! eigenstates of the CI matrix
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END_DOC
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use selection_types
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implicit none
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integer, intent(inout) :: ndet ! number of determinants from before
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double precision, intent(inout) :: E_tc,norm ! E and norm from previous wave function
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type(pt2_type) , intent(in) :: pt2_data ! PT2 from previous wave function
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logical, intent(in) :: print_pt2
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integer :: i, j
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print*,'*****'
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print*,'New wave function information'
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print*,'N_det tc = ',N_det
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print*,'norm_ground_left_right_bi_orth = ',norm_ground_left_right_bi_orth
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print*,'eigval_right_tc = ',eigval_right_tc_bi_orth(1)
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print*,'Ndet, E_tc = ',N_det,eigval_right_tc_bi_orth(1)
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print*,'*****'
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if(print_pt2) then
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print*,'*****'
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print*,'previous wave function info'
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print*,'norm(before) = ',norm
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print*,'E(before) = ',E_tc
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print*,'PT1 norm = ',dsqrt(pt2_data % overlap(1,1))
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print*,'E(before) + PT2 = ',E_tc + (pt2_data % pt2(1))/norm
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print*,'PT2 = ',pt2_data % pt2(1)
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print*,'Ndet, E_tc, E+PT2 = ',ndet,E_tc,E_tc + (pt2_data % pt2(1))/norm,dsqrt(pt2_data % overlap(1,1))
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print*,'*****'
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endif
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E_tc = eigval_right_tc_bi_orth(1)
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norm = norm_ground_left_right_bi_orth
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ndet = N_det
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do j = 1, N_states
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do i = 1, N_det
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psi_coef(i,j) = reigvec_tc_bi_orth(i,j)
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enddo
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enddo
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SOFT_TOUCH eigval_left_tc_bi_orth eigval_right_tc_bi_orth leigvec_tc_bi_orth norm_ground_left_right_bi_orth psi_coef reigvec_tc_bi_orth
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end
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! ---
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@ -45,12 +45,12 @@ end
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! ---
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BEGIN_PROVIDER [double precision, eigval_right_tc_bi_orth, (N_states) ]
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&BEGIN_PROVIDER [double precision, eigval_left_tc_bi_orth , (N_states) ]
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&BEGIN_PROVIDER [double precision, reigvec_tc_bi_orth , (N_det,N_states)]
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&BEGIN_PROVIDER [double precision, leigvec_tc_bi_orth , (N_det,N_states)]
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&BEGIN_PROVIDER [double precision, s2_eigvec_tc_bi_orth , (N_states) ]
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&BEGIN_PROVIDER [double precision, norm_ground_left_right_bi_orth ]
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BEGIN_PROVIDER [double precision, eigval_right_tc_bi_orth , (N_states) ]
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&BEGIN_PROVIDER [double precision, eigval_left_tc_bi_orth , (N_states) ]
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&BEGIN_PROVIDER [double precision, reigvec_tc_bi_orth , (N_det,N_states)]
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&BEGIN_PROVIDER [double precision, leigvec_tc_bi_orth , (N_det,N_states)]
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&BEGIN_PROVIDER [double precision, s2_eigvec_tc_bi_orth , (N_states) ]
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&BEGIN_PROVIDER [double precision, norm_ground_left_right_bi_orth , (N_states) ]
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BEGIN_DOC
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! eigenvalues, right and left eigenvectors of the transcorrelated Hamiltonian on the BI-ORTHO basis
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@ -309,13 +309,13 @@ end
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deallocate(Stmp)
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print*,'leigvec_tc_bi_orth(1,1),reigvec_tc_bi_orth(1,1) = ', leigvec_tc_bi_orth(1,1), reigvec_tc_bi_orth(1,1)
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norm_ground_left_right_bi_orth = 0.d0
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do i = 1, N_states
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norm_ground_left_right_bi_orth = 0.d0
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do j = 1, N_det
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norm_ground_left_right_bi_orth += leigvec_tc_bi_orth(j,i) * reigvec_tc_bi_orth(j,i)
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norm_ground_left_right_bi_orth(i) += leigvec_tc_bi_orth(j,i) * reigvec_tc_bi_orth(j,i)
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enddo
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print*,' state ', i
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print*,' norm l/r = ', norm_ground_left_right_bi_orth
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print*,' norm l/r = ', norm_ground_left_right_bi_orth(i)
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print*,' <S2> = ', s2_eigvec_tc_bi_orth(i)
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enddo
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