program mpn implicit none BEGIN_DOC ! TODO : Put the documentation of the program here END_DOC integer :: i, k, l double precision, allocatable :: c_pert(:,:) double precision, allocatable :: e_pert(:) double precision, allocatable :: hc(:), s2(:) n_states_diag = 1 TOUCH n_states_diag call generate_fci_space allocate(c_pert(N_det,0:mp_order)) allocate(s2(N_det)) allocate(e_pert(0:mp_order)) e_pert(0) = energy_det_i(1) c_pert(:,:) = 0.d0 c_pert(1,0) = 1.d0 e_pert(1) = hf_energy - e_pert(0) - nuclear_repulsion do k=1,mp_order ! H_ij C^(k-1) call h_s2_u_0_nstates_zmq(c_pert(1,k),s2,c_pert(1,k-1),1,N_det) if (k>1) then e_pert(k) += c_pert(1,k) endif print *, k, e_pert(k), sum(e_pert) + nuclear_repulsion c_pert(:,k) = -c_pert(:,k) c_pert(1,k) = 0.d0 do l=1,k do i=2,N_det c_pert(i,k) = c_pert(i,k) + e_pert(l) * c_pert(i,k-l) enddo enddo do i=2,N_det c_pert(i,k) = c_pert(i,k) + energy_det_i(i) * c_pert(i,k-1) enddo do i=2,N_det c_pert(i,k) = c_pert(i,k) / (energy_det_i(i) - energy_det_i(1)) enddo enddo end