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QuAcK/src/MBPT/G0T0.f90

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8.8 KiB
Fortran
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subroutine G0T0(doACFDT,exchange_kernel,doXBS,BSE,TDA_T,TDA,dBSE,dTDA,evDyn,singlet,triplet, &
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linearize,eta,nBas,nC,nO,nV,nR,nS,ENuc,ERHF,ERI_AO,ERI_MO,dipole_int,PHF,cHF,eHF,Vxc,eG0T0)
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! Perform one-shot calculation with a T-matrix self-energy (G0T0)
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implicit none
include 'parameters.h'
! Input variables
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logical,intent(in) :: doACFDT
logical,intent(in) :: exchange_kernel
logical,intent(in) :: doXBS
logical,intent(in) :: BSE
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logical,intent(in) :: TDA_T
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logical,intent(in) :: TDA
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logical,intent(in) :: dBSE
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logical,intent(in) :: dTDA
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logical,intent(in) :: evDyn
logical,intent(in) :: singlet
logical,intent(in) :: triplet
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logical,intent(in) :: linearize
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double precision,intent(in) :: eta
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integer,intent(in) :: nBas
integer,intent(in) :: nC
integer,intent(in) :: nO
integer,intent(in) :: nV
integer,intent(in) :: nR
integer,intent(in) :: nS
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double precision,intent(in) :: ENuc
double precision,intent(in) :: ERHF
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double precision,intent(in) :: Vxc(nBas)
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double precision,intent(in) :: eHF(nBas)
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double precision,intent(in) :: cHF(nBas,nBas)
double precision,intent(in) :: PHF(nBas,nBas)
double precision,intent(in) :: ERI_AO(nBas,nBas,nBas,nBas)
double precision,intent(in) :: ERI_MO(nBas,nBas,nBas,nBas)
double precision,intent(in) :: dipole_int(nBas,nBas,ncart)
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! Local variables
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integer :: ispin
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integer :: iblock
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integer :: nOOs,nOOt
integer :: nVVs,nVVt
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double precision :: EcRPA(nspin)
double precision :: EcBSE(nspin)
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double precision :: EcAC(nspin)
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double precision,allocatable :: Omega1s(:),Omega1t(:)
double precision,allocatable :: X1s(:,:),X1t(:,:)
double precision,allocatable :: Y1s(:,:),Y1t(:,:)
double precision,allocatable :: rho1s(:,:,:),rho1t(:,:,:)
double precision,allocatable :: Omega2s(:),Omega2t(:)
double precision,allocatable :: X2s(:,:),X2t(:,:)
double precision,allocatable :: Y2s(:,:),Y2t(:,:)
double precision,allocatable :: rho2s(:,:,:),rho2t(:,:,:)
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double precision,allocatable :: SigX(:)
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double precision,allocatable :: SigT(:)
double precision,allocatable :: Z(:)
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double precision,allocatable :: Omega(:,:)
double precision,allocatable :: XpY(:,:,:)
double precision,allocatable :: XmY(:,:,:)
double precision,allocatable :: rho(:,:,:,:)
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! Output variables
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double precision,intent(out) :: eG0T0(nBas)
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! Hello world
write(*,*)
write(*,*)'************************************************'
write(*,*)'| One-shot G0T0 calculation |'
write(*,*)'************************************************'
write(*,*)
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! Dimensions of the pp-RPA linear reponse matrices
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nOOs = nO*nO
nVVs = nV*nV
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nOOt = nO*(nO - 1)/2
nVVt = nV*(nV - 1)/2
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! Memory allocation
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allocate(Omega1s(nVVs),X1s(nVVs,nVVs),Y1s(nOOs,nVVs), &
Omega2s(nOOs),X2s(nVVs,nOOs),Y2s(nOOs,nOOs), &
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rho1s(nBas,nBas,nVVs),rho2s(nBas,nBas,nOOs), &
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Omega1t(nVVt),X1t(nVVt,nVVt),Y1t(nOOt,nVVt), &
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Omega2t(nOOt),X2t(nVVt,nOOt),Y2t(nOOt,nOOt), &
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rho1t(nBas,nBas,nVVt),rho2t(nBas,nBas,nOOt), &
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SigX(nBas),SigT(nBas),Z(nBas))
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!----------------------------------------------
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! alpha-beta block
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!----------------------------------------------
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ispin = 1
iblock = 3
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! Compute linear response
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call linear_response_pp(iblock,.true.,.false.,nBas,nC,nO,nV,nR,nOOs,nVVs,eHF,ERI_MO, &
Omega1s,X1s,Y1s,Omega2s,X2s,Y2s,EcRPA(ispin))
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! EcRPA(ispin) = 1d0*EcRPA(ispin)
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! call print_excitation('pp-RPA (N+2)',iblock,nVVs,Omega1s(:))
! call print_excitation('pp-RPA (N-2)',iblock,nOOs,Omega2s(:))
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!----------------------------------------------
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! alpha-alpha block
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!----------------------------------------------
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ispin = 2
iblock = 4
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! Compute linear response
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call linear_response_pp(iblock,.true.,.false.,nBas,nC,nO,nV,nR,nOOt,nVVt,eHF,ERI_MO, &
Omega1t,X1t,Y1t,Omega2t,X2t,Y2t,EcRPA(ispin))
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! EcRPA(ispin) = 2d0*EcRPA(ispin)
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! EcRPA(ispin) = 3d0*EcRPA(ispin)
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! call print_excitation('pp-RPA (N+2)',iblock,nVVt,Omega1t(:))
! call print_excitation('pp-RPA (N-2)',iblock,nOOt,Omega2t(:))
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!----------------------------------------------
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! Compute T-matrix version of the self-energy
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!----------------------------------------------
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SigT(:) = 0d0
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Z(:) = 0d0
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iblock = 3
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call excitation_density_Tmatrix(iblock,nBas,nC,nO,nV,nR,nOOs,nVVs,ERI_MO,X1s,Y1s,rho1s,X2s,Y2s,rho2s)
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call self_energy_Tmatrix_diag(eta,nBas,nC,nO,nV,nR,nOOs,nVVs,eHF,Omega1s,rho1s,Omega2s,rho2s,SigT)
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call renormalization_factor_Tmatrix(eta,nBas,nC,nO,nV,nR,nOOs,nVVs,eHF,Omega1s,rho1s,Omega2s,rho2s,Z)
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iblock = 4
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call excitation_density_Tmatrix(iblock,nBas,nC,nO,nV,nR,nOOt,nVVt,ERI_MO,X1t,Y1t,rho1t,X2t,Y2t,rho2t)
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call self_energy_Tmatrix_diag(eta,nBas,nC,nO,nV,nR,nOOt,nVVt,eHF,Omega1t,rho1t,Omega2t,rho2t,SigT)
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call renormalization_factor_Tmatrix(eta,nBas,nC,nO,nV,nR,nOOt,nVVt,eHF,Omega1t,rho1t,Omega2t,rho2t,Z)
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Z(:) = 1d0/(1d0 - Z(:))
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!----------------------------------------------
! Compute the exchange part of the self-energy
!----------------------------------------------
call self_energy_exchange_diag(nBas,cHF,PHF,ERI_AO,SigX)
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!----------------------------------------------
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! Solve the quasi-particle equation
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!----------------------------------------------
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if(linearize) then
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eG0T0(:) = eHF(:) + Z(:)*(SigX(:) + SigT(:) - Vxc(:))
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else
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eG0T0(:) = eHF(:) + SigX(:) + SigT(:) - Vxc(:)
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end if
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!----------------------------------------------
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! Dump results
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!----------------------------------------------
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! Compute the ppRPA correlation energy
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ispin = 1
iblock = 3
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call linear_response_pp(iblock,.false.,.false.,nBas,nC,nO,nV,nR,nOOs,nVVs,eG0T0,ERI_MO, &
Omega1s,X1s,Y1s,Omega2s,X2s,Y2s,EcRPA(ispin))
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ispin = 2
iblock = 4
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call linear_response_pp(iblock,.false.,.false.,nBas,nC,nO,nV,nR,nOOt,nVVt,eG0T0,ERI_MO, &
Omega1t,X1t,Y1t,Omega2t,X2t,Y2t,EcRPA(ispin))
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EcRPA(1) = EcRPA(1) - EcRPA(2)
EcRPA(2) = 3d0*EcRPA(2)
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call print_G0T0(nBas,nO,eHF,ENuc,ERHF,SigT,Z,eG0T0,EcRPA)
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! Perform BSE calculation
if(BSE) then
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call Bethe_Salpeter_Tmatrix(TDA_T,TDA,dBSE,dTDA,evDyn,singlet,triplet,eta,nBas,nC,nO,nV,nR,nS,nOOs,nVVs,nOOt,nVVt, &
Omega1s,X1s,Y1s,Omega2s,X2s,Y2s,rho1s,rho2s,Omega1t,X1t,Y1t,Omega2t,X2t,Y2t,rho1t,rho2t, &
ERI_MO,dipole_int,eHF,eG0T0,EcBSE)
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if(exchange_kernel) then
EcRPA(1) = 0.5d0*EcRPA(1)
EcRPA(2) = 1.5d0*EcRPA(1)
end if
write(*,*)
write(*,*)'-------------------------------------------------------------------------------'
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write(*,'(2X,A50,F20.10,A3)') 'Tr@BSE@G0T0 correlation energy (singlet) =',EcBSE(1),' au'
write(*,'(2X,A50,F20.10,A3)') 'Tr@BSE@G0T0 correlation energy (triplet) =',EcBSE(2),' au'
write(*,'(2X,A50,F20.10,A3)') 'Tr@BSE@G0T0 correlation energy =',EcBSE(1) + EcBSE(2),' au'
write(*,'(2X,A50,F20.10,A3)') 'Tr@BSE@G0T0 total energy =',ENuc + ERHF + EcBSE(1) + EcBSE(2),' au'
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write(*,*)'-------------------------------------------------------------------------------'
write(*,*)
! Compute the BSE correlation energy via the adiabatic connection
if(doACFDT) then
write(*,*) '------------------------------------------------------'
write(*,*) 'Adiabatic connection version of BSE correlation energy'
write(*,*) '------------------------------------------------------'
write(*,*)
if(doXBS) then
write(*,*) '*** scaled screening version (XBS) ***'
write(*,*)
end if
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call ACFDT(exchange_kernel,doXBS,.true.,TDA_T,TDA,BSE,singlet,triplet,eta, &
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nBas,nC,nO,nV,nR,nS,ERI_MO,eHF,eG0T0,EcAC)
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if(exchange_kernel) then
EcAC(1) = 0.5d0*EcAC(1)
EcAC(2) = 1.5d0*EcAC(1)
end if
write(*,*)
write(*,*)'-------------------------------------------------------------------------------'
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write(*,'(2X,A50,F20.10,A3)') 'AC@BSE@G0T0 correlation energy (singlet) =',EcAC(1),' au'
write(*,'(2X,A50,F20.10,A3)') 'AC@BSE@G0T0 correlation energy (triplet) =',EcAC(2),' au'
write(*,'(2X,A50,F20.10,A3)') 'AC@BSE@G0T0 correlation energy =',EcAC(1) + EcAC(2),' au'
write(*,'(2X,A50,F20.10,A3)') 'AC@BSE@G0T0 total energy =',ENuc + ERHF + EcAC(1) + EcAC(2),' au'
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write(*,*)'-------------------------------------------------------------------------------'
write(*,*)
end if
end if
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end subroutine G0T0