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https://github.com/pfloos/quack
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95 lines
3.2 KiB
Fortran
95 lines
3.2 KiB
Fortran
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subroutine Bethe_Salpeter_ZAB_matrix_dynamic(eta,nBas,nC,nO,nV,nR,nS,lambda,eGW,OmRPA,OmBSE,rho,ZAp,ZAm,ZBp,ZBm)
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! Compute the dynamic part of the Bethe-Salpeter equation matrices
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implicit none
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include 'parameters.h'
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! Input variables
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integer,intent(in) :: nBas,nC,nO,nV,nR,nS
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double precision,intent(in) :: eta
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double precision,intent(in) :: lambda
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double precision,intent(in) :: eGW(nBas)
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double precision,intent(in) :: OmRPA(nS)
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double precision,intent(in) :: OmBSE
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double precision,intent(in) :: rho(nBas,nBas,nS)
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! Local variables
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integer :: maxS
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double precision :: chi_Ap,chi_Am,chi_Bp,chi_Bm
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double precision :: eps_Ap,eps_Am,eps_Bp,eps_Bm
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integer :: i,j,a,b,ia,jb,kc
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! Output variables
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double precision,intent(out) :: ZAp(nS,nS)
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double precision,intent(out) :: ZAm(nS,nS)
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double precision,intent(out) :: ZBp(nS,nS)
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double precision,intent(out) :: ZBm(nS,nS)
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! Initialization
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ZAp(:,:) = 0d0
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ZAm(:,:) = 0d0
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ZBp(:,:) = 0d0
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ZBm(:,:) = 0d0
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! Number of poles taken into account
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maxS = nS
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! Build dynamic A matrix
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ia = 0
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do i=nC+1,nO
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do a=nO+1,nBas-nR
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ia = ia + 1
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jb = 0
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do j=nC+1,nO
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do b=nO+1,nBas-nR
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jb = jb + 1
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chi_Ap = 0d0
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chi_Am = 0d0
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chi_Bp = 0d0
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chi_Bm = 0d0
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do kc=1,maxS
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eps_Ap = (+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(j)))**2 + eta**2
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eps_Am = (+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(j)))**2 + eta**2
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chi_Ap = chi_Ap + rho(i,j,kc)*rho(a,b,kc)*((+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(j)))/eps_Ap)**2
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chi_Am = chi_Am + rho(i,j,kc)*rho(a,b,kc)*((+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(j)))/eps_Am)**2
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eps_Ap = (+ OmBSE - OmRPA(kc) - (eGW(b) - eGW(i)))**2 + eta**2
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eps_Am = (+ OmBSE - OmRPA(kc) - (eGW(b) - eGW(i)))**2 + eta**2
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chi_Ap = chi_Ap + rho(i,j,kc)*rho(a,b,kc)*((+ OmBSE - OmRPA(kc) - (eGW(b) - eGW(i)))/eps_Ap)**2
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chi_Am = chi_Am + rho(i,j,kc)*rho(a,b,kc)*((+ OmBSE - OmRPA(kc) - (eGW(b) - eGW(i)))/eps_Am)**2
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eps_Bp = (+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(b)))**2 + eta**2
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eps_Bm = (+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(b)))**2 + eta**2
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chi_Bp = chi_Bp + rho(i,b,kc)*rho(a,j,kc)*((+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(b)))/eps_Bp)**2
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chi_Bm = chi_Bm + rho(i,b,kc)*rho(a,j,kc)*((+ OmBSE - OmRPA(kc) - (eGW(a) - eGW(b)))/eps_Bm)**2
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eps_Bp = (+ OmBSE - OmRPA(kc) - (eGW(j) - eGW(i)))**2 + eta**2
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eps_Bm = (+ OmBSE - OmRPA(kc) - (eGW(j) - eGW(i)))**2 + eta**2
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chi_Bp = chi_Bp + rho(i,b,kc)*rho(a,j,kc)*((+ OmBSE - OmRPA(kc) - (eGW(j) - eGW(i)))/eps_Bp)**2
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chi_Bm = chi_Bm + rho(i,b,kc)*rho(a,j,kc)*((+ OmBSE - OmRPA(kc) - (eGW(j) - eGW(i)))/eps_Bm)**2
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enddo
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ZAp(ia,jb) = ZAp(ia,jb) + 2d0*lambda*chi_Ap
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ZAm(ia,jb) = ZAm(ia,jb) + 2d0*lambda*chi_Am
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ZBp(ia,jb) = ZBp(ia,jb) + 2d0*lambda*chi_Bp
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ZBm(ia,jb) = ZBm(ia,jb) + 2d0*lambda*chi_Bm
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enddo
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enddo
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enddo
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enddo
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end subroutine Bethe_Salpeter_ZAB_matrix_dynamic
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