!
! Copyright (C) 2001 PWSCF group
! This file is distributed under the terms of the
! GNU General Public License. See the file `License'
! in the root directory of the present distribution,
! or http://www.gnu.org/copyleft/gpl.txt .
!
!-----------------------------------------------------------------------
subroutine drhodv (nu_i0, nper, drhoscf)
!-----------------------------------------------------------------------
!
! This subroutine computes the electronic term
! <psi|dv|dpsi> of the dynamical matrix
!
#include "f_defs.h"
!
USE ions_base, ONLY : nat
use pwcom
USE kinds, only : DP
USE io_files, ONLY: iunigk
use phcom
implicit none
integer :: nper, nu_i0
! input: number of perturbations of this represent
! input: the initial position of the mode
complex(kind=DP) :: drhoscf (nrxx, nspin, npertx)
! the change of density due to perturbations
integer :: mu, ik, ikq, ig, nu_i, nu_j, na_jcart, ibnd, nrec, &
ipol, ikk
! counters
! ikk: record position for wfc at k
complex(kind=DP) :: fact, ps, dynwrk (3 * nat, 3 * nat), &
wdyn (3 * nat, 3 * nat), ZDOTC
complex(kind=DP), allocatable :: aux (:,:), dbecq (:,:,:), &
dalpq (:,:,:,:)
! work space
!
! Initialize the auxiliary matrix wdyn
!
call start_clock ('drhodv')
allocate (dbecq ( nkb , nbnd, nper))
allocate (dalpq ( nkb , nbnd ,3 ,nper))
allocate (aux ( npwx , nbnd))
dynwrk(:,:) = (0.d0, 0.d0)
wdyn (:,:) = (0.d0, 0.d0)
!
! We need a sum over all k points ...
!
if (nksq > 1) rewind (unit = iunigk)
do ik = 1, nksq
if (nksq > 1) read (iunigk) npw, igk
if (lgamma) then
ikk = ik
ikq = ik
npwq = npw
else
ikk = 2 * ik - 1
ikq = ikk + 1
if (nksq > 1) read (iunigk) npwq, igkq
endif
if (lsda) current_spin = isk (ikk)
call init_us_2 (npwq, igkq, xk (1, ikq), vkb)
do mu = 1, nper
nrec = (mu - 1) * nksq + ik
if (nksq > 1 .or. nper > 1) call davcio(dpsi, lrdwf, iudwf, nrec,-1)
call ccalbec (nkb, npwx, npwq, nbnd, dbecq (1, 1, mu), vkb, dpsi)
do ipol = 1, 3
do ibnd = 1, nbnd
do ig = 1, npwq
aux (ig, ibnd) = dpsi (ig, ibnd) * &
(xk (ipol, ikq) + g (ipol, igkq (ig) ) )
enddo
enddo
call ccalbec (nkb, npwx, npwq, nbnd, dalpq(1,1,ipol,mu), vkb, aux)
enddo
enddo
fact = DCMPLX (0.d0, tpiba)
dalpq = dalpq * fact
call drhodvnl (ik, ikk, nper, nu_i0, dynwrk, dbecq, dalpq)
enddo
!
! put in the basis of the modes
!
do nu_i = 1, 3 * nat
do nu_j = 1, 3 * nat
ps = (0.0d0, 0.0d0)
do na_jcart = 1, 3 * nat
ps = ps + dynwrk (nu_i, na_jcart) * u (na_jcart, nu_j)
enddo
wdyn (nu_i, nu_j) = wdyn (nu_i, nu_j) + ps
enddo
enddo
#ifdef __PARA
!
! collect contributions from all pools (sum over k-points)
!
call poolreduce (18 * nat * nat, wdyn)
#endif
!
! add the contribution of the local part of the perturbation
!
call drhodvloc (nu_i0, nper, drhoscf, wdyn)
!
! add to the rest of the dynamical matrix
!
! WRITE( stdout,*) 'drhodv dyn, wdyn'
! call tra_write_matrix('drhodv dyn',dyn,u,nat)
! call tra_write_matrix('drhodv wdyn',wdyn,u,nat)
dyn (:,:) = dyn (:,:) + wdyn (:,:)
deallocate (aux)
deallocate (dalpq)
deallocate (dbecq)
call stop_clock ('drhodv')
return
end subroutine drhodv