Merge pull request #32 from aselimov/ft--add-square-vacancy-disloop

Added rectangular vacancy disloop
master
aselimov 5 years ago committed by GitHub
commit 5b767038c2
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@ -530,8 +530,8 @@ module opt_disl
subroutine vacancy_disloop subroutine vacancy_disloop
!This subroutine actually creates the dislocation loop. !This subroutine actually creates the dislocation loop.
real(kind=dp) :: neighbor_dis, temp_box(6), dis, normal_dim real(kind=dp) :: neighbor_dis, temp_box(6), dis
integer :: i, j, index, delete_num, delete_index(atom_num) integer :: i, j, index, delete_num, delete_index(atom_num), normal_dim
neighbor_dis = HUGE(1.0_dp) neighbor_dis = HUGE(1.0_dp)
index= 0 index= 0
@ -560,22 +560,41 @@ module opt_disl
centroid = r_atom(:,index) centroid = r_atom(:,index)
!Now reset the list for the scanning algorithm !Now reset the list for the scanning algorithm
delete_num = 0
!Now scan over all atoms again and find the closest vloop_size number of atoms to the initial atom !Now scan over all atoms again and find the closest vloop_size number of atoms to the initial atom
!that reside on the same plane. !that reside on the same plane. If loop_radius is > 0 then we build a circular vacancy cluster
if(loop_radius > 0) then
do i = 1, atom_num
!Check to see if it is on the same plane
if (in_block_bd(r_atom(:,i), temp_box)) then
dis = norm2(r_atom(:,i) - centroid)
!Check to see if it is within the loop radius, if so then add it to the delete list
if (dis < loop_radius) then
delete_num = delete_num + 1
delete_index(delete_num) = i
end if
end if
end do
delete_num = 0 !If the loop radius is < 0 we build a square vacancy cluster
do i = 1, atom_num else if (loop_radius < 0) then
!Check to see if it is on the same plane !Set the new box boundaries
if (in_block_bd(r_atom(:,i), temp_box)) then do i = 1, 3
dis = norm2(r_atom(:,i) - centroid) if (i /= normal_dim) then
!Check to see if it is within the loop radius, if so then add it to the delete list temp_box(2*i) = centroid(i) + abs(loop_radius)
if (dis < loop_radius) then temp_box(2*i-1) = centroid(i) - abs(loop_radius)
end if
end do
!Now delete all atoms with box box boundary which should create a square planar vacancy cluster
do i = 1, atom_num
!Check to see if the atom is in the bounding cube
if (in_block_bd(r_atom(:,i), temp_box)) then
delete_num = delete_num + 1 delete_num = delete_num + 1
delete_index(delete_num) = i delete_index(delete_num) = i
end if end if
end if end do
end do end if
!Now delete the atoms !Now delete the atoms
call delete_atoms(delete_num, delete_index(1:delete_num)) call delete_atoms(delete_num, delete_index(1:delete_num))

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