mirror of https://gitlab.com/QEF/q-e.git
133 lines
4.0 KiB
Fortran
133 lines
4.0 KiB
Fortran
!
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! Copyright (C) 2002-2003 PWSCF group
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! This file is distributed under the terms of the
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! GNU General Public License. See the file `License'
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! in the root directory of the present distribution,
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! or http://www.gnu.org/copyleft/gpl.txt .
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!
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#include "f_defs.h"
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!
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!----------------------------------------------------------------------
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subroutine gen_at_dj ( kpoint, natw, lmax_wfc, dwfcat )
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!----------------------------------------------------------------------
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!
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! This routine calculates the atomic wfc generated by the derivative
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! (with respect to the q vector) of the bessel function. This vector
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! is needed in computing the internal stress tensor.
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!
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USE kinds, ONLY : DP
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USE parameters, ONLY : nchix
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USE io_global, ONLY : stdout
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USE constants, ONLY : tpi, fpi
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USE atom, ONLY : msh, r, rab, lchi, nchi, oc, chi
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USE ions_base, ONLY : nat, ntyp => nsp, ityp, tau
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USE cell_base, ONLY : omega, at, bg, tpiba
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USE klist, ONLY : xk
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USE gvect, ONLY : ig1, ig2, ig3, eigts1, eigts2, eigts3, g
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USE wvfct, ONLY : npw, npwx, igk
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USE us, ONLY : tab_at, dq
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!
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implicit none
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!
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! I/O variables
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!
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integer :: kpoint, natw, lmax_wfc
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complex (DP) :: dwfcat(npwx,natw)
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!
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! local variables
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!
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integer :: l, na, nt, nb, iatw, iig, i, ig, i0, i1, i2 ,i3, m, lm
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real (DP) :: eps, dv, qt, arg, px, ux, vx, wx
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parameter (eps=1.0e-8)
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complex (DP) :: phase, pref
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real (DP), allocatable :: gk(:,:), q(:), ylm(:,:), djl(:,:,:)
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! gk(3,npw), q(npw),
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! ylm(npw,(lmax_wfc+1)**2),
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! djl(npw,nchix,ntyp)
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complex (DP), allocatable :: sk(:)
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! sk(npw)
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allocate ( ylm (npw,(lmax_wfc+1)**2) , djl (npw,nchix,ntyp) )
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allocate ( gk(3,npw), q (npw) )
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do ig = 1, npw
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gk (1,ig) = xk(1, kpoint) + g(1, igk(ig) )
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gk (2,ig) = xk(2, kpoint) + g(2, igk(ig) )
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gk (3,ig) = xk(3, kpoint) + g(3, igk(ig) )
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q (ig) = gk(1, ig)**2 + gk(2, ig)**2 + gk(3, ig)**2
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enddo
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!
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! ylm = spherical harmonics
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!
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call ylmr2 ((lmax_wfc+1)**2, npw, gk, q, ylm)
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q(:) = dsqrt ( q(:) )
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do nt=1,ntyp
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do nb=1,nchi(nt)
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if (oc(nb,nt) >= 0.d0) then
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l =lchi(nb,nt)
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do ig = 1, npw
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qt=q(ig)*tpiba
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px = qt / dq - int (qt / dq)
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ux = 1.d0 - px
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vx = 2.d0 - px
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wx = 3.d0 - px
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i0 = qt / dq + 1
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i1 = i0 + 1
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i2 = i0 + 2
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i3 = i0 + 3
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djl(ig,nb,nt) = &
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( tab_at (i0, nb, nt) * (-vx*wx-ux*wx-ux*vx)/6.d0 + &
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tab_at (i1, nb, nt) * (+vx*wx-px*wx-px*vx)/2.d0 - &
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tab_at (i2, nb, nt) * (+ux*wx-px*wx-px*ux)/2.d0 + &
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tab_at (i3, nb, nt) * (+ux*vx-px*vx-px*ux)/6.d0 )/dq
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enddo
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end if
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end do
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end do
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deallocate ( gk, q )
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allocate ( sk(npw) )
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iatw = 0
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do na=1,nat
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nt=ityp(na)
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arg = ( xk(1,kpoint) * tau(1,na) + &
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xk(2,kpoint) * tau(2,na) + &
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xk(3,kpoint) * tau(3,na) ) * tpi
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phase=CMPLX(cos(arg),-sin(arg))
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do ig =1,npw
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iig = igk(ig)
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sk(ig) = eigts1(ig1(iig),na) * &
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eigts2(ig2(iig),na) * &
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eigts3(ig3(iig),na) * phase
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end do
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do nb = 1,nchi(nt)
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if (oc(nb,nt) >= 0.d0) then
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l = lchi(nb,nt)
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pref = (1.d0,0.d0)**l
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pref = (0.d0,1.d0)**l
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do m = 1,2*l+1
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lm = l*l+m
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iatw = iatw+1
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do ig=1,npw
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dwfcat(ig,iatw)= djl(ig,nb,nt)*sk(ig)*ylm(ig,lm)*pref
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end do
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enddo
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end if
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enddo
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enddo
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if (iatw.ne.natw) then
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WRITE( stdout,*) 'iatw =',iatw,'natw =',natw
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call errore('gen_at_dj','unexpected error',1)
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end if
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deallocate ( sk )
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deallocate ( ylm , djl )
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return
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end subroutine gen_at_dj
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