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qp2/src/determinants/create_excitations.irp.f

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subroutine do_single_excitation(key_in,i_hole,i_particle,ispin,i_ok)
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implicit none
BEGIN_DOC
! Apply the single excitation operator : a^{dager}_(i_particle) a_(i_hole) of spin = ispin
! on key_in
! ispin = 1 == alpha
! ispin = 2 == beta
! i_ok = 1 == the excitation is possible
! i_ok = -1 == the excitation is not possible
END_DOC
integer, intent(in) :: i_hole,i_particle,ispin
integer(bit_kind), intent(inout) :: key_in(N_int,2)
integer, intent(out) :: i_ok
integer :: k,j,i
integer(bit_kind) :: mask
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use bitmasks
ASSERT (i_hole > 0 )
ASSERT (i_particle <= mo_num)
i_ok = 1
! hole
k = shiftr(i_hole-1,bit_kind_shift)+1
j = i_hole-shiftl(k-1,bit_kind_shift)-1
mask = ibset(0_bit_kind,j)
! check whether position j is occupied
if (iand(key_in(k,ispin),mask) /= 0_bit_kind) then
key_in(k,ispin) = ibclr(key_in(k,ispin),j)
else
i_ok= -1
return
end if
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! particle
k = shiftr(i_particle-1,bit_kind_shift)+1
j = i_particle-shiftl(k-1,bit_kind_shift)-1
mask = ibset(0_bit_kind,j)
if (iand(key_in(k,ispin),mask) == 0_bit_kind) then
key_in(k,ispin) = ibset(key_in(k,ispin),j)
else
i_ok= -1
return
end if
! integer :: n_elec_tmp
! n_elec_tmp = 0
! do i = 1, N_int
! n_elec_tmp += popcnt(key_in(i,1)) + popcnt(key_in(i,2))
! enddo
! if(n_elec_tmp .ne. elec_num)then
! print*, n_elec_tmp,elec_num
! call debug_det(key_in,N_int)
! stop -1
! endif
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end
subroutine build_singly_excited_wavefunction(i_hole,i_particle,ispin,det_out,coef_out)
implicit none
BEGIN_DOC
! Applies the single excitation operator : a^{dager}_(i_particle) a_(i_hole) of
! spin = ispin to the current wave function (psi_det, psi_coef)
END_DOC
integer, intent(in) :: i_hole,i_particle,ispin
integer(bit_kind), intent(out) :: det_out(N_int,2,N_det)
double precision, intent(out) :: coef_out(N_det,N_states)
integer :: k
integer :: i_ok
double precision :: phase
do k=1,N_det
coef_out(k,:) = psi_coef(k,:)
det_out(:,:,k) = psi_det(:,:,k)
call do_single_excitation(det_out(1,1,k),i_hole,i_particle,ispin,i_ok)
if (i_ok == 1) then
call get_phase(psi_det(1,1,k), det_out(1,1,k),phase,N_int)
coef_out(k,:) = phase * coef_out(k,:)
else
coef_out(k,:) = 0.d0
det_out(:,:,k) = psi_det(:,:,k)
endif
enddo
end
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logical function is_spin_flip_possible(key_in,i_flip,ispin)
implicit none
BEGIN_DOC
! returns |true| if the spin-flip of spin ispin in the orbital i_flip is possible
! on key_in
END_DOC
integer, intent(in) :: i_flip,ispin
integer(bit_kind), intent(in) :: key_in(N_int,2)
integer :: k,j,i
integer(bit_kind) :: key_tmp(N_int,2)
is_spin_flip_possible = .False.
key_tmp = 0_bit_kind
k = shiftr(i_flip-1,bit_kind_shift)+1
j = i_flip-shiftl(k-1,bit_kind_shift)-1
key_tmp(k,1) = ibset(key_tmp(k,1),j)
integer :: other_spin(2)
other_spin(1) = 2
other_spin(2) = 1
if(popcnt(iand(key_tmp(k,1),key_in(k,ispin))) == 1 .and. popcnt(iand(key_tmp(k,1),key_in(k,other_spin(ispin)))) == 0 )then
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! There is a spin "ispin" in the orbital i_flip AND
! There is no electron of opposit spin in the same orbital "i_flip"
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is_spin_flip_possible = .True.
return
else
return
endif
end