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quack/src/GT/UGTpp_excitation_density.f90

223 lines
5.4 KiB
Fortran
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subroutine UGTpp_excitation_density(ispin,nBas,nC,nO,nV,nR,nH,nP,ERI_aaaa,ERI_aabb,ERI_bbbb,X1,Y1,rho1,X2,Y2,rho2)
! Compute excitation densities for T-matrix self-energy
implicit none
include 'parameters.h'
! Input variables
integer,intent(in) :: ispin
integer,intent(in) :: nBas
integer,intent(in) :: nC(nspin)
integer,intent(in) :: nO(nspin)
integer,intent(in) :: nV(nspin)
integer,intent(in) :: nR(nspin)
double precision,intent(in) :: ERI_aaaa(nBas,nBas,nBas,nBas)
double precision,intent(in) :: ERI_aabb(nBas,nBas,nBas,nBas)
double precision,intent(in) :: ERI_bbbb(nBas,nBas,nBas,nBas)
integer,intent(in) :: nH
integer,intent(in) :: nP
double precision,intent(in) :: X1(nP,nP)
double precision,intent(in) :: Y1(nH,nP)
double precision,intent(in) :: X2(nP,nH)
double precision,intent(in) :: Y2(nH,nH)
! Local variables
integer :: i,j,k,l
integer :: a,b,c,d
integer :: p,q
integer :: ab,cd,ij,kl
double precision,external :: Kronecker_delta
! Output variables
double precision,intent(out) :: rho1(nBas,nBas,nP)
double precision,intent(out) :: rho2(nBas,nBas,nH)
! Initialization
rho1(:,:,:) = 0d0
rho2(:,:,:) = 0d0
!----------------------------------------------
! alpha-beta block
!----------------------------------------------
if(ispin == 3) then
do p=nC(1)+1,nBas-nR(1)
do q=nC(2)+1,nBas-nR(2)
do ab=1,nP
cd = 0
do c=nO(1)+1,nBas-nR(1)
do d=nO(2)+1,nBas-nR(1)
cd = cd + 1
rho1(p,q,ab) = rho1(p,q,ab) &
+ (1d0*ERI_aabb(p,q,c,d) + 0d0*ERI_aabb(p,q,d,c))*X1(cd,ab)
end do
end do
kl = 0
do k=nC(1)+1,nO(1)
do l=nC(1)+1,nO(1)
kl = kl + 1
rho1(p,q,ab) = rho1(p,q,ab) &
+ (1d0*ERI_aabb(p,q,k,l) + 0d0*ERI_aabb(p,q,l,k))*Y1(kl,ab)
end do
end do
end do
ij = 0
do i=nC(1)+1,nO(1)
do j=nC(2)+1,nO(2)
ij = ij + 1
cd = 0
do c=nO(1)+1,nBas-nR(1)
do d=nO(2)+1,nBas-nR(2)
cd = cd + 1
rho2(p,q,ij) = rho2(p,q,ij) &
+ (1d0*ERI_aabb(p,q,c,d) + 0d0*ERI_aabb(p,q,d,c))*X2(cd,ij)
end do
end do
kl = 0
do k=nC(1)+1,nO(1)
do l=nC(1)+1,nO(1)
kl = kl + 1
rho2(p,q,ij) = rho2(p,q,ij) &
+ (1d0*ERI_aabb(p,q,k,l) + 0d0*ERI_aabb(p,q,l,k))*Y2(kl,ij)
end do
end do
end do
end do
end do
end do
end if
!----------------------------------------------
! alpha-alpha block
!----------------------------------------------
if(ispin == 4) then
do p=nC(1)+1,nBas-nR(1)
do q=nC(1)+1,nBas-nR(1)
do ab=1,nP
cd = 0
do c=nO(1)+1,nBas-nR(1)
do d=c+1,nBas-nR(1)
cd = cd + 1
rho1(p,q,ab) = rho1(p,q,ab) &
+ (ERI_aaaa(p,q,c,d) - ERI_aaaa(p,q,d,c))*X1(cd,ab)
end do
end do
kl = 0
do k=nC(1)+1,nO(1)
do l=k+1,nO(1)
kl = kl + 1
rho1(p,q,ab) = rho1(p,q,ab) &
+ (ERI_aaaa(p,q,k,l) - ERI_aaaa(p,q,l,k))*Y1(kl,ab)
end do
end do
end do
do ij=1,nH
cd = 0
do c=nO(1)+1,nBas-nR(1)
do d=c+1,nBas-nR(1)
cd = cd + 1
rho2(p,q,ij) = rho2(p,q,ij) &
+ (ERI_aaaa(p,q,c,d) - ERI_aaaa(p,q,d,c))*X2(cd,ij)
end do
end do
kl = 0
do k=nC(1)+1,nO(1)
do l=k+1,nO(1)
kl = kl + 1
rho2(p,q,ij) = rho2(p,q,ij) &
+ (ERI_aaaa(p,q,k,l) - ERI_aaaa(p,q,l,k))*Y2(kl,ij)
end do
end do
end do
end do
end do
end if
!----------------------------------------------
! beta-beta block
!----------------------------------------------
if(ispin == 7) then
do p=nC(2)+1,nBas-nR(2)
do q=nC(2)+1,nBas-nR(2)
do ab=1,nP
cd = 0
do c=nO(2)+1,nBas-nR(2)
do d=c+1,nBas-nR(2)
cd = cd + 1
rho1(p,q,ab) = rho1(p,q,ab) + (ERI_bbbb(p,q,c,d)-ERI_bbbb(p,q,d,c))*X1(cd,ab)
end do
end do
kl = 0
do k=nC(2)+1,nO(2)
do l=k+1,nO(2)
kl = kl + 1
rho1(p,q,ab) = rho1(p,q,ab) + (ERI_bbbb(p,q,k,l)-ERI_bbbb(p,q,l,k))*Y1(kl,ab)
end do
end do
end do
do ij=1,nH
cd = 0
do c=nO(2)+1,nBas-nR(2)
do d=c+1,nBas-nR(2)
cd = cd + 1
rho2(p,q,ij) = rho2(p,q,ij) + (ERI_bbbb(p,q,c,d)-ERI_bbbb(p,q,d,c))*X2(cd,ij)
end do
end do
kl = 0
do k=nC(2)+1,nO(2)
do l=k+1,nO(2)
kl = kl + 1
rho2(p,q,ij) = rho2(p,q,ij) + (ERI_bbbb(p,q,k,l)-ERI_bbbb(p,q,l,k))*Y2(kl,ij)
end do
end do
end do
end do
end do
end if
end subroutine
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