2021-05-19 15:23:06 +02:00
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [integer, n_points_extra_radial_grid]
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&BEGIN_PROVIDER [integer, n_points_extra_integration_angular]
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2023-05-15 00:31:28 +02:00
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BEGIN_DOC
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! n_points_extra_radial_grid = number of radial grid points_extra per atom
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!
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! n_points_extra_integration_angular = number of angular grid points_extra per atom
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!
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! These numbers are automatically set by setting the grid_type_sgn parameter
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END_DOC
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implicit none
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if(.not.my_extra_grid_becke)then
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select case (extra_grid_type_sgn)
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case(0)
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n_points_extra_radial_grid = 23
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n_points_extra_integration_angular = 170
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case(1)
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n_points_extra_radial_grid = 50
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n_points_extra_integration_angular = 194
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case(2)
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n_points_extra_radial_grid = 75
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n_points_extra_integration_angular = 302
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case(3)
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n_points_extra_radial_grid = 99
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n_points_extra_integration_angular = 590
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case default
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write(*,*) '!!! Quadrature grid not available !!!'
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stop
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end select
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else
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n_points_extra_radial_grid = my_n_pt_r_extra_grid
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n_points_extra_integration_angular = my_n_pt_a_extra_grid
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endif
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2021-05-19 15:23:06 +02:00
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END_PROVIDER
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [integer, n_points_extra_grid_per_atom]
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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BEGIN_DOC
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! Number of grid points_extra per atom
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END_DOC
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2023-05-15 00:31:28 +02:00
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implicit none
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2021-05-19 15:23:06 +02:00
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n_points_extra_grid_per_atom = n_points_extra_integration_angular * n_points_extra_radial_grid
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END_PROVIDER
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [double precision, grid_points_extra_radial, (n_points_extra_radial_grid)]
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&BEGIN_PROVIDER [double precision, dr_radial_extra_integral]
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BEGIN_DOC
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! points_extra in [0,1] to map the radial integral [0,\infty]
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END_DOC
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2023-05-15 00:31:28 +02:00
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implicit none
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integer :: i
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2021-05-19 15:23:06 +02:00
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dr_radial_extra_integral = 1.d0/dble(n_points_extra_radial_grid-1)
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do i = 1, n_points_extra_radial_grid
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grid_points_extra_radial(i) = dble(i-1) * dr_radial_extra_integral
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enddo
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END_PROVIDER
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [double precision, grid_points_extra_per_atom, (3,n_points_extra_integration_angular,n_points_extra_radial_grid,nucl_num)]
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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BEGIN_DOC
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! x,y,z coordinates of grid points_extra used for integration in 3d space
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END_DOC
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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implicit none
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2023-05-15 00:31:28 +02:00
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integer :: i, j, k
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double precision :: dr, x_ref, y_ref, z_ref
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double precision :: x, r, tmp
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double precision, external :: knowles_function
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grid_points_extra_per_atom = 0.d0
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PROVIDE extra_rad_grid_type
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if(extra_rad_grid_type .eq. "KNOWLES") then
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do i = 1, nucl_num
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x_ref = nucl_coord(i,1)
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y_ref = nucl_coord(i,2)
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z_ref = nucl_coord(i,3)
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do j = 1, n_points_extra_radial_grid-1
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! x value for the mapping of the [0, +\infty] to [0,1]
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x = grid_points_extra_radial(j)
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! value of the radial coordinate for the integration
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r = knowles_function(alpha_knowles(grid_atomic_number(i)), m_knowles, x)
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! explicit values of the grid points_extra centered around each atom
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do k = 1, n_points_extra_integration_angular
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grid_points_extra_per_atom(1,k,j,i) = x_ref + angular_quadrature_points_extra(k,1) * r
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grid_points_extra_per_atom(2,k,j,i) = y_ref + angular_quadrature_points_extra(k,2) * r
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grid_points_extra_per_atom(3,k,j,i) = z_ref + angular_quadrature_points_extra(k,3) * r
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enddo
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2021-05-19 15:23:06 +02:00
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enddo
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enddo
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2023-05-15 00:31:28 +02:00
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elseif(extra_rad_grid_type .eq. "GILL") then
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! GILL & CHIEN, 2002
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do i = 1, nucl_num
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x_ref = nucl_coord(i,1)
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y_ref = nucl_coord(i,2)
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z_ref = nucl_coord(i,3)
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do j = 1, n_points_extra_radial_grid-1
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r = R_gill * dble(j-1)**2 / dble(n_points_extra_radial_grid-j+1)**2
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! explicit values of the grid points_extra centered around each atom
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do k = 1, n_points_extra_integration_angular
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grid_points_extra_per_atom(1,k,j,i) = x_ref + angular_quadrature_points_extra(k,1) * r
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grid_points_extra_per_atom(2,k,j,i) = y_ref + angular_quadrature_points_extra(k,2) * r
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grid_points_extra_per_atom(3,k,j,i) = z_ref + angular_quadrature_points_extra(k,3) * r
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enddo
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enddo
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enddo
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else
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print*, " extra_rad_grid_type = ", extra_rad_grid_type, ' is not implemented'
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stop
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endif
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2021-05-19 15:23:06 +02:00
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END_PROVIDER
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [double precision, weight_at_r_extra, (n_points_extra_integration_angular,n_points_extra_radial_grid,nucl_num) ]
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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BEGIN_DOC
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! Weight function at grid points_extra : w_n(r) according to the equation (22)
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! of Becke original paper (JCP, 88, 1988)
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!
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! The "n" discrete variable represents the nucleis which in this array is
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! represented by the last dimension and the points_extra are labelled by the
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! other dimensions.
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END_DOC
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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implicit none
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2023-05-15 00:31:28 +02:00
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integer :: i, j, k, l, m
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double precision :: r(3)
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double precision :: accu
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double precision :: tmp_array(nucl_num)
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double precision, external :: cell_function_becke
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2021-05-19 15:23:06 +02:00
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! run over all points_extra in space
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! that are referred to each atom
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do j = 1, nucl_num
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!for each radial grid attached to the "jth" atom
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do k = 1, n_points_extra_radial_grid -1
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! for each angular point attached to the "jth" atom
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do l = 1, n_points_extra_integration_angular
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r(1) = grid_points_extra_per_atom(1,l,k,j)
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r(2) = grid_points_extra_per_atom(2,l,k,j)
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r(3) = grid_points_extra_per_atom(3,l,k,j)
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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accu = 0.d0
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! For each of these points_extra in space, ou need to evaluate the P_n(r)
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do i = 1, nucl_num
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! function defined for each atom "i" by equation (13) and (21) with k == 3
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tmp_array(i) = cell_function_becke(r,i) ! P_n(r)
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! Then you compute the summ the P_n(r) function for each of the "r" points_extra
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accu += tmp_array(i)
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enddo
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accu = 1.d0/accu
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weight_at_r_extra(l,k,j) = tmp_array(j) * accu
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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if(isnan(weight_at_r_extra(l,k,j)))then
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2023-05-15 00:31:28 +02:00
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print*,'isnan(weight_at_r_extra(l,k,j))'
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print*,l,k,j
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accu = 0.d0
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do i = 1, nucl_num
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! function defined for each atom "i" by equation (13) and (21) with k == 3
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tmp_array(i) = cell_function_becke(r,i) ! P_n(r)
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print*,i,tmp_array(i)
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! Then you compute the summ the P_n(r) function for each of the "r" points_extra
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accu += tmp_array(i)
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enddo
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write(*,'(100(F16.10,X))')tmp_array(j) , accu
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2021-05-19 15:23:06 +02:00
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stop
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endif
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enddo
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enddo
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enddo
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END_PROVIDER
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2023-05-15 00:31:28 +02:00
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! ---
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2021-05-19 15:23:06 +02:00
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BEGIN_PROVIDER [double precision, final_weight_at_r_extra, (n_points_extra_integration_angular,n_points_extra_radial_grid,nucl_num) ]
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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BEGIN_DOC
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! Total weight on each grid point which takes into account all Lebedev, Voronoi and radial weights.
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END_DOC
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2023-05-15 00:31:28 +02:00
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2021-05-19 15:23:06 +02:00
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implicit none
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2023-05-15 00:31:28 +02:00
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integer :: i, j, k, l, m
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double precision :: r(3)
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double precision :: tmp_array(nucl_num)
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double precision :: contrib_integration, x, tmp
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double precision, external :: derivative_knowles_function, knowles_function
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PROVIDE extra_rad_grid_type
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if(extra_rad_grid_type .eq. "KNOWLES") then
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! run over all points_extra in space
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do j = 1, nucl_num ! that are referred to each atom
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do i = 1, n_points_extra_radial_grid -1 !for each radial grid attached to the "jth" atom
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x = grid_points_extra_radial(i) ! x value for the mapping of the [0, +\infty] to [0,1]
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do k = 1, n_points_extra_integration_angular ! for each angular point attached to the "jth" atom
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contrib_integration = derivative_knowles_function(alpha_knowles(grid_atomic_number(j)),m_knowles,x)&
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* knowles_function(alpha_knowles(grid_atomic_number(j)),m_knowles,x)**2
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final_weight_at_r_extra(k,i,j) = weights_angular_points_extra(k) * weight_at_r_extra(k,i,j) * contrib_integration * dr_radial_extra_integral
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if(isnan(final_weight_at_r_extra(k,i,j)))then
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print*,'isnan(final_weight_at_r_extra(k,i,j))'
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print*,k,i,j
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write(*,'(100(F16.10,X))')weights_angular_points_extra(k) , weight_at_r_extra(k,i,j) , contrib_integration , dr_radial_extra_integral
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stop
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endif
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enddo
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2021-05-19 15:23:06 +02:00
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enddo
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enddo
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2023-05-15 00:31:28 +02:00
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elseif(extra_rad_grid_type .eq. "GILL") then
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! GILL & CHIEN, 2002
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PROVIDE R_gill
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tmp = 2.d0 * R_gill * R_gill * R_gill * dble(n_points_extra_radial_grid)
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! run over all points_extra in space
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do j = 1, nucl_num ! that are referred to each atom
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do i = 1, n_points_extra_radial_grid -1 !for each radial grid attached to the "jth" atom
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contrib_integration = tmp * dble(i-1)**5 / dble(n_points_extra_radial_grid-i+1)**7
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do k = 1, n_points_extra_integration_angular ! for each angular point attached to the "jth" atom
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final_weight_at_r_extra(k,i,j) = weights_angular_points_extra(k) * weight_at_r_extra(k,i,j) * contrib_integration
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if(isnan(final_weight_at_r_extra(k,i,j)))then
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print*,'isnan(final_weight_at_r_extra(k,i,j))'
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print*,k,i,j
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write(*,'(100(F16.10,X))') weights_angular_points_extra(k), weight_at_r_extra(k,i,j), contrib_integration
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stop
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endif
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enddo
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enddo
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enddo
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else
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print*, " extra_rad_grid_type = ", extra_rad_grid_type, ' is not implemented'
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stop
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endif
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2021-05-19 15:23:06 +02:00
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END_PROVIDER
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