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qp_plugins_scemama/devel/casscf/superci_dm.irp.f
2020-10-26 13:45:08 +01:00

208 lines
7.0 KiB
Fortran

BEGIN_PROVIDER [double precision, super_ci_dm, (mo_num,mo_num)]
implicit none
BEGIN_DOC
! density matrix of the super CI matrix, in the basis of NATURAL ORBITALS OF THE CASCI WF
!
! This is obtained from annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
!
! WARNING ::: in the equation B3.d there is a TYPO with a forgotten MINUS SIGN (see variable mat_tmp_dm_super_ci )
END_DOC
super_ci_dm = 0.d0
integer :: i,j,iorb,jorb
integer :: a,aorb,b,borb
integer :: t,torb,v,vorb,u,uorb,x,xorb
double precision :: c0,ci
c0 = SXeigenvec(1,1)
! equation B3.a of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
! loop over the core/inact
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
super_ci_dm(iorb,iorb) = 2.d0 ! first term of B3.a
! loop over the core/inact
do j = 1, n_core_inact_orb
jorb = list_core_inact(j)
! loop over the virtual
do a = 1, n_virt_orb
aorb = list_virt(a)
super_ci_dm(jorb,iorb) += -2.d0 * lowest_super_ci_coef_mo(aorb,iorb) * lowest_super_ci_coef_mo(aorb,jorb) ! second term in B3.a
enddo
do t = 1, n_act_orb
torb = list_act(t)
! thrid term of the B3.a
super_ci_dm(jorb,iorb) += - lowest_super_ci_coef_mo(iorb,torb) * lowest_super_ci_coef_mo(jorb,torb) * (2.d0 - occ_act(t))
enddo
enddo
enddo
! equation B3.b of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
do t = 1, n_act_orb
torb = list_act(t)
super_ci_dm(iorb,torb) = c0 * lowest_super_ci_coef_mo(torb,iorb) * (2.d0 - occ_act(t))
super_ci_dm(torb,iorb) = c0 * lowest_super_ci_coef_mo(torb,iorb) * (2.d0 - occ_act(t))
do a = 1, n_virt_orb
aorb = list_virt(a)
super_ci_dm(iorb,torb) += - lowest_super_ci_coef_mo(aorb,iorb) * lowest_super_ci_coef_mo(aorb,torb) * occ_act(t)
super_ci_dm(torb,iorb) += - lowest_super_ci_coef_mo(aorb,iorb) * lowest_super_ci_coef_mo(aorb,torb) * occ_act(t)
enddo
enddo
enddo
! equation B3.c of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
do a = 1, n_virt_orb
aorb = list_virt(a)
super_ci_dm(aorb,iorb) = 2.d0 * c0 * lowest_super_ci_coef_mo(aorb,iorb)
super_ci_dm(iorb,aorb) = 2.d0 * c0 * lowest_super_ci_coef_mo(aorb,iorb)
enddo
enddo
! equation B3.d of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
do t = 1, n_act_orb
torb = list_act(t)
super_ci_dm(torb,torb) = occ_act(t) ! first term of equation B3.d
do x = 1, n_act_orb
xorb = list_act(x)
super_ci_dm(torb,torb) += - occ_act(x) * occ_act(t)* mat_tmp_dm_super_ci(x,x) ! second term involving the ONE-rdm
enddo
do u = 1, n_act_orb
uorb = list_act(u)
! second term of equation B3.d
do x = 1, n_act_orb
xorb = list_act(x)
do v = 1, n_act_orb
vorb = list_act(v)
super_ci_dm(torb,uorb) += 2.d0 * P0tuvx_no(v,x,t,u) * mat_tmp_dm_super_ci(v,x) ! second term involving the TWO-rdm
enddo
enddo
! third term of equation B3.d
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
super_ci_dm(torb,uorb) += lowest_super_ci_coef_mo(iorb,torb) * lowest_super_ci_coef_mo(iorb,uorb) * (2.d0 - occ_act(t) - occ_act(u))
enddo
enddo
enddo
! equation B3.e of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
do t = 1, n_act_orb
torb = list_act(t)
do a = 1, n_virt_orb
aorb = list_virt(a)
super_ci_dm(aorb,torb) += c0 * lowest_super_ci_coef_mo(aorb,torb) * occ_act(t)
super_ci_dm(torb,aorb) += c0 * lowest_super_ci_coef_mo(aorb,torb) * occ_act(t)
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
super_ci_dm(aorb,torb) += lowest_super_ci_coef_mo(iorb,aorb) * lowest_super_ci_coef_mo(iorb,torb) * (2.d0 - occ_act(t))
super_ci_dm(torb,aorb) += lowest_super_ci_coef_mo(iorb,aorb) * lowest_super_ci_coef_mo(iorb,torb) * (2.d0 - occ_act(t))
enddo
enddo
enddo
! equation B3.f of the annex B of Roos et. al. Chemical Physics 48 (1980) 157-173
do a = 1, n_virt_orb
aorb = list_virt(a)
do b = 1, n_virt_orb
borb= list_virt(b)
! First term of equation B3.f
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
super_ci_dm(borb,aorb) += 2.d0 * lowest_super_ci_coef_mo(iorb,aorb) * lowest_super_ci_coef_mo(iorb,borb)
enddo
! Second term of equation B3.f
do t = 1, n_act_orb
torb = list_act(t)
super_ci_dm(borb,aorb) += lowest_super_ci_coef_mo(torb,aorb) * lowest_super_ci_coef_mo(torb,borb) * occ_act(t)
enddo
enddo
enddo
END_PROVIDER
BEGIN_PROVIDER [double precision, superci_natorb, (ao_num,mo_num)
&BEGIN_PROVIDER [double precision, superci_nat_occ, (mo_num)
implicit none
call general_mo_coef_new_as_svd_vectors_of_mo_matrix_eig(super_ci_dm,mo_num,mo_num,mo_num,NatOrbsFCI,superci_nat_occ,superci_natorb)
END_PROVIDER
BEGIN_PROVIDER [double precision, mat_tmp_dm_super_ci, (n_act_orb,n_act_orb)]
implicit none
BEGIN_DOC
! computation of the term in [ ] in the equation B3.d of Roos et. al. Chemical Physics 48 (1980) 157-173
!
! !!!!! WARNING !!!!!! there is a TYPO: a MINUS SIGN SHOULD APPEAR in that term
END_DOC
integer :: a,aorb,i,iorb
integer :: x,xorb,v,vorb
mat_tmp_dm_super_ci = 0.d0
do v = 1, n_act_orb
vorb = list_act(v)
do x = 1, n_act_orb
xorb = list_act(x)
do a = 1, n_virt_orb
aorb = list_virt(a)
mat_tmp_dm_super_ci(x,v) += lowest_super_ci_coef_mo(aorb,vorb) * lowest_super_ci_coef_mo(aorb,xorb)
enddo
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
! MARK THE MINUS SIGN HERE !!!!!!!!!!! BECAUSE OF TYPO IN THE ORIGINAL PAPER
mat_tmp_dm_super_ci(x,v) -= lowest_super_ci_coef_mo(iorb,vorb) * lowest_super_ci_coef_mo(iorb,xorb)
enddo
enddo
enddo
END_PROVIDER
BEGIN_PROVIDER [double precision, lowest_super_ci_coef_mo, (mo_num,mo_num)]
implicit none
integer :: i,j,iorb,jorb
integer :: a, aorb,t, torb
double precision :: sqrt2
sqrt2 = 1.d0/dsqrt(2.d0)
do i = 1, nMonoEx
iorb = excit(1,i)
jorb = excit(2,i)
lowest_super_ci_coef_mo(iorb,jorb) = SXeigenvec(i+1,1)
lowest_super_ci_coef_mo(jorb,iorb) = SXeigenvec(i+1,1)
enddo
! a_{it} of the equation B.2 of Roos et. al. Chemical Physics 48 (1980) 157-173
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
do t = 1, n_act_orb
torb = list_act(t)
lowest_super_ci_coef_mo(torb,iorb) *= (2.d0 - occ_act(t))**(-0.5d0)
lowest_super_ci_coef_mo(iorb,torb) *= (2.d0 - occ_act(t))**(-0.5d0)
enddo
enddo
! a_{ia} of the equation B.2 of Roos et. al. Chemical Physics 48 (1980) 157-173
do i = 1, n_core_inact_orb
iorb = list_core_inact(i)
do a = 1, n_virt_orb
aorb = list_virt(a)
lowest_super_ci_coef_mo(aorb,iorb) *= sqrt2
lowest_super_ci_coef_mo(iorb,aorb) *= sqrt2
enddo
enddo
! a_{ta} of the equation B.2 of Roos et. al. Chemical Physics 48 (1980) 157-173
do a = 1, n_virt_orb
aorb = list_virt(a)
do t = 1, n_act_orb
torb = list_act(t)
lowest_super_ci_coef_mo(torb,aorb) *= occ_act(t)**(-0.5d0)
lowest_super_ci_coef_mo(aorb,torb) *= occ_act(t)**(-0.5d0)
enddo
enddo
END_PROVIDER