quack/src/MBPT/renormalization_factor_Tmatrix.f90

subroutine renormalization_factor_Tmatrix(alpha,eta,nBas,nC,nO,nV,nR,nOO,nVV,e,Omega1,rho1,Omega2,rho2,Z)

! Compute renormalization factor of the T-matrix self-energy

  implicit none
  include 'parameters.h'

! Input variables

  double precision,intent(in)   :: alpha
  double precision,intent(in)   :: eta
  integer,intent(in)            :: nBas,nC,nO,nV,nR
  integer,intent(in)            :: nOO
  integer,intent(in)            :: nVV
  double precision,intent(in)   :: e(nBas)
  double precision,intent(in)   :: Omega1(nVV)
  double precision,intent(in)   :: rho1(nBas,nO,nVV)
  double precision,intent(in)   :: Omega2(nOO)
  double precision,intent(in)   :: rho2(nBas,nV,nOO)

! Local variables

  integer                       :: i,j,k,l,a,b,c,d,p,cd,kl
  double precision              :: eps

! Output variables

  double precision,intent(out)  :: Z(nBas)

! Occupied part of the T-matrix self-energy 

  do p=nC+1,nBas-nR
    do i=nC+1,nO
      do cd=1,nVV
        eps  = e(p) + e(i) - Omega1(cd)
        Z(p) = Z(p) - (rho1(p,i,cd)/eps)**2
      enddo
    enddo
  enddo

! Virtual part of the T-matrix self-energy

  do p=nC+1,nBas-nR
    do a=1,nV-nR
      do kl=1,nOO
        eps  = e(p) + e(nO+a) - Omega2(kl)
        Z(p) = Z(p) - (rho2(p,a,kl)/eps)**2
      enddo
    enddo
  enddo

! Compute renormalization factor from derivative of SigT
 
! Z(:) = 1d0/(1d0 + Z(:))

end subroutine renormalization_factor_Tmatrix
b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`subroutine renormalization_factor_Tmatrix(alpha,eta,nBas,nC,nO,nV,nR,nOO,nVV,e,Omega1,rho1,Omega2,rho2,Z)`
T-matrix self-energy 2019-10-06 22:35:36 +02:00
			`! Compute renormalization factor of the T-matrix self-energy`

			`implicit none`
			`include 'parameters.h'`

			`! Input variables`

b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`double precision,intent(in) :: alpha`
T-matrix self-energy 2019-10-06 22:35:36 +02:00			`double precision,intent(in) :: eta`
singlet and triplet G0T0 2019-10-20 08:18:58 +02:00			`integer,intent(in) :: nBas,nC,nO,nV,nR`
b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`integer,intent(in) :: nOO`
			`integer,intent(in) :: nVV`
T-matrix self-energy 2019-10-06 22:35:36 +02:00			`double precision,intent(in) :: e(nBas)`
b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`double precision,intent(in) :: Omega1(nVV)`
			`double precision,intent(in) :: rho1(nBas,nO,nVV)`
			`double precision,intent(in) :: Omega2(nOO)`
			`double precision,intent(in) :: rho2(nBas,nV,nOO)`
T-matrix self-energy 2019-10-06 22:35:36 +02:00
			`! Local variables`

			`integer :: i,j,k,l,a,b,c,d,p,cd,kl`
			`double precision :: eps`

			`! Output variables`

			`double precision,intent(out) :: Z(nBas)`

singlet and triplet G0T0 2019-10-20 08:18:58 +02:00			`! Occupied part of the T-matrix self-energy`

			`do p=nC+1,nBas-nR`
			`do i=nC+1,nO`
b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`do cd=1,nVV`
			`eps = e(p) + e(i) - Omega1(cd)`
			`Z(p) = Z(p) - (rho1(p,i,cd)/eps)**2`
singlet and triplet G0T0 2019-10-20 08:18:58 +02:00			`enddo`
			`enddo`
			`enddo`

			`! Virtual part of the T-matrix self-energy`

			`do p=nC+1,nBas-nR`
revive eDFT code 2020-03-14 23:00:44 +01:00			`do a=1,nV-nR`
b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`do kl=1,nOO`
			`eps = e(p) + e(nO+a) - Omega2(kl)`
			`Z(p) = Z(p) - (rho2(p,a,kl)/eps)**2`
singlet and triplet G0T0 2019-10-20 08:18:58 +02:00			`enddo`
			`enddo`
			`enddo`

T-matrix self-energy 2019-10-06 22:35:36 +02:00			`! Compute renormalization factor from derivative of SigT`

b4 removing soG0T0 2020-04-13 11:33:48 +02:00			`! Z(:) = 1d0/(1d0 + Z(:))`
T-matrix self-energy 2019-10-06 22:35:36 +02:00
			`end subroutine renormalization_factor_Tmatrix`