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QuAcK/src/MBPT/print_qsUGW.f90

180 lines
8.9 KiB
Fortran
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subroutine print_qsUGW(nBas,nO,nSCF,Conv,thresh,eHF,eGW,cGW,PGW,Ov,T,V,J,K, &
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ENuc,ET,EV,EJ,Ex,EcGM,EcRPA,EqsGW,SigC,Z,dipole)
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! Print one-electron energies and other stuff for qsUGW
implicit none
include 'parameters.h'
! Input variables
integer,intent(in) :: nBas
integer,intent(in) :: nO(nspin)
integer,intent(in) :: nSCF
double precision,intent(in) :: ENuc
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double precision,intent(in) :: ET(nspin)
double precision,intent(in) :: EV(nspin)
double precision,intent(in) :: EJ(nsp)
double precision,intent(in) :: Ex(nspin)
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double precision,intent(in) :: EcGM(nspin)
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double precision,intent(in) :: EcRPA
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double precision,intent(in) :: EqsGW
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double precision,intent(in) :: Conv
double precision,intent(in) :: thresh
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double precision,intent(in) :: eHF(nBas,nspin)
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double precision,intent(in) :: eGW(nBas,nspin)
double precision,intent(in) :: cGW(nBas,nBas,nspin)
double precision,intent(in) :: PGW(nBas,nBas,nspin)
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double precision,intent(in) :: Ov(nBas,nBas)
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double precision,intent(in) :: T(nBas,nBas)
double precision,intent(in) :: V(nBas,nBas)
double precision,intent(in) :: J(nBas,nBas,nspin)
double precision,intent(in) :: K(nBas,nBas,nspin)
double precision,intent(in) :: SigC(nBas,nBas,nspin)
double precision,intent(in) :: Z(nBas,nspin)
double precision,intent(in) :: dipole(ncart)
! Local variables
integer :: p
integer :: ispin,ixyz
double precision :: HOMO(nspin)
double precision :: LUMO(nspin)
double precision :: Gap(nspin)
double precision :: S_exact,S2_exact
double precision :: S,S2
double precision,external :: trace_matrix
! HOMO and LUMO
do ispin=1,nspin
if(nO(ispin) > 0) then
HOMO(ispin) = eGW(nO(ispin),ispin)
LUMO(ispin) = eGW(nO(ispin)+1,ispin)
Gap(ispin) = LUMO(ispin) - HOMO(ispin)
else
HOMO(ispin) = 0d0
LUMO(ispin) = eGW(1,ispin)
Gap(ispin) = 0d0
end if
end do
S2_exact = dble(nO(1) - nO(2))/2d0*(dble(nO(1) - nO(2))/2d0 + 1d0)
S2 = S2_exact + nO(2) - sum(matmul(transpose(cGW(:,1:nO(1),1)),matmul(Ov,cGW(:,1:nO(2),2)))**2)
S_exact = 0.5d0*dble(nO(1) - nO(2))
S = -0.5d0 + 0.5d0*sqrt(1d0 + 4d0*S2)
! Dump results
write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
if(nSCF < 10) then
write(*,'(1X,A21,I1,A1,I1,A12)')' Self-consistent qsG',nSCF,'W',nSCF,' calculation'
else
write(*,'(1X,A21,I2,A1,I2,A12)')' Self-consistent qsG',nSCF,'W',nSCF,' calculation'
endif
write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
write(*,'(A1,A3,A1,A30,A1,A30,A1,A30,A1,A30,A1)') &
'|',' ','|','e_HF ','|','Sig_c ','|','Z ','|','e_QP ','|'
write(*,'(A1,A3,A1,2A15,A1,2A15,A1,2A15,A1,2A15,A1)') &
'|','#','|','up ','dw ','|','up ','dw ','|','up ','dw ','|','up ','dw ','|'
write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
do p=1,nBas
write(*,'(A1,I3,A1,2F15.6,A1,2F15.6,A1,2F15.6,A1,2F15.6,A1)') &
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'|',p,'|',eHF(p,1)*HaToeV,eHF(p,2)*HaToeV,'|',SigC(p,p,1)*HaToeV,SigC(p,p,2)*HaToeV,'|', &
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Z(p,1),Z(p,2),'|',eGW(p,1)*HaToeV,eGW(p,2)*HaToeV,'|'
enddo
write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
write(*,'(2X,A10,I3)') 'Iteration ',nSCF
write(*,'(2X,A19,F15.5)')'max(|FPS - SPF|) = ',Conv
write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
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write(*,'(2X,A30,F15.6,A3)') 'qsUGW HOMO energy:',maxval(HOMO(:))*HaToeV,' eV'
write(*,'(2X,A30,F15.6,A3)') 'qsUGW LUMO energy:',minval(LUMO(:))*HaToeV,' eV'
write(*,'(2X,A30,F15.6,A3)') 'qsUGW HOMO-LUMO gap :',(minval(LUMO(:))-maxval(HOMO(:)))*HaToeV,' eV'
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write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
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write(*,'(2X,A30,F15.6,A3)') ' qsUGW total energy:',ENuc + EqsGW + sum(EcGM(:)),' au'
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write(*,'(2X,A30,F15.6,A3)') ' qsUGW exchange energy:',sum(Ex(:)),' au'
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write(*,'(2X,A30,F15.6,A3)') ' GM@qsUGW correlation energy:',sum(EcGM(:)),' au'
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write(*,'(2X,A30,F15.6,A3)') 'RPA@qsUGW correlation energy:',EcRPA,' au'
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write(*,*)'-------------------------------------------------------------------------------&
-------------------------------------------------'
write(*,*)
! Dump results for final iteration
if(Conv < thresh) then
write(*,*)
write(*,'(A60)') '-------------------------------------------------'
write(*,'(A40)') ' Summary '
write(*,'(A60)') '-------------------------------------------------'
write(*,'(A40,1X,F16.10,A3)') ' One-electron energy: ',sum(ET(:)) + sum(EV(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' One-electron a energy: ',ET(1) + EV(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' One-electron b energy: ',ET(2) + EV(2),' au'
write(*,*)
write(*,'(A40,1X,F16.10,A3)') ' Kinetic energy: ',sum(ET(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Kinetic a energy: ',ET(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Kinetic b energy: ',ET(2),' au'
write(*,*)
write(*,'(A40,1X,F16.10,A3)') ' Potential energy: ',sum(EV(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Potential a energy: ',EV(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Potential b energy: ',EV(2),' au'
write(*,'(A60)') '-------------------------------------------------'
write(*,'(A40,1X,F16.10,A3)') ' Two-electron energy: ',sum(EJ(:)) + sum(Ex(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Two-electron aa energy: ',EJ(1) + Ex(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Two-electron ab energy: ',EJ(2),' au'
write(*,'(A40,1X,F16.10,A3)') ' Two-electron bb energy: ',EJ(3) + Ex(2),' au'
write(*,*)
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write(*,'(A40,1X,F16.10,A3)') ' Hartree energy: ',sum(EJ(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Hartree aa energy: ',EJ(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Hartree ab energy: ',EJ(2),' au'
write(*,'(A40,1X,F16.10,A3)') ' Hartree bb energy: ',EJ(3),' au'
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write(*,*)
write(*,'(A40,1X,F16.10,A3)') ' Exchange energy: ',sum(Ex(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Exchange a energy: ',Ex(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Exchange b energy: ',Ex(2),' au'
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write(*,*)
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write(*,'(A40,1X,F16.10,A3)') ' Correlation energy: ',sum(EcGM(:)),' au'
write(*,'(A40,1X,F16.10,A3)') ' Correlation aa energy: ',EcGM(1),' au'
write(*,'(A40,1X,F16.10,A3)') ' Correlation bb energy: ',EcGM(2),' au'
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write(*,'(A60)') '-------------------------------------------------'
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write(*,'(A40,1X,F16.10,A3)') ' Electronic energy: ',EqsGW + sum(EcGM(:)),' au'
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write(*,'(A40,1X,F16.10,A3)') ' Nuclear repulsion: ',ENuc,' au'
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write(*,'(A40,1X,F16.10,A3)') ' qsUGW energy: ',ENuc + EqsGW + sum(EcGM(:)),' au'
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write(*,'(A60)') '-------------------------------------------------'
write(*,'(A40,F13.6)') ' S (exact) :',2d0*S_exact + 1d0
write(*,'(A40,F13.6)') ' S :',2d0*S + 1d0
write(*,'(A40,F13.6)') ' <S**2> (exact) :',S2_exact
write(*,'(A40,F13.6)') ' <S**2> :',S2
write(*,'(A60)') '-------------------------------------------------'
write(*,'(A45)') ' Dipole moment (Debye) '
write(*,'(19X,4A10)') 'X','Y','Z','Tot.'
write(*,'(19X,4F10.6)') (dipole(ixyz)*auToD,ixyz=1,ncart),norm2(dipole)*auToD
write(*,'(A60)') '-------------------------------------------------'
write(*,*)
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! Print orbitals
write(*,'(A50)') '-----------------------------------------'
write(*,'(A50)') 'qsUGW spin-up orbital coefficients '
write(*,'(A50)') '-----------------------------------------'
call matout(nBas,nBas,cGW(:,:,1))
write(*,*)
write(*,'(A50)') '-----------------------------------------'
write(*,'(A50)') 'qsUGW spin-down orbital coefficients '
write(*,'(A50)') '-----------------------------------------'
call matout(nBas,nBas,cGW(:,:,2))
write(*,*)
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endif
end subroutine print_qsUGW