==================== Orbital_Entanglement ==================== Needed Modules ============== .. Do not edit this section It was auto-generated .. by the `update_README.py` script. .. image:: tree_dependency.png * `Determinants `_ Documentation ============= .. Do not edit this section It was auto-generated .. by the `update_README.py` script. `entropy_one_orb `_ entropy_one_orb is the one-orbital von Neumann entropy S(1)_i entropy_two_orb is the two-orbital von Neumann entropy S(2)_ij. `entropy_two_orb `_ entropy_one_orb is the one-orbital von Neumann entropy S(1)_i entropy_two_orb is the two-orbital von Neumann entropy S(2)_ij. `mo_inp_bit_list `_ mo_inp_list is the list of the orbitals involved in the entanglement calculation. It is taken equal to the list of active orbitals list_act. mo_inp_list_rev is a list such that mo_inp_list_rev(mo_inp_list(i))=i. `mo_inp_list `_ mo_inp_list is the list of the orbitals involved in the entanglement calculation. It is taken equal to the list of active orbitals list_act. mo_inp_list_rev is a list such that mo_inp_list_rev(mo_inp_list(i))=i. `mo_inp_list_rev `_ mo_inp_list is the list of the orbitals involved in the entanglement calculation. It is taken equal to the list of active orbitals list_act. mo_inp_list_rev is a list such that mo_inp_list_rev(mo_inp_list(i))=i. `mo_inp_num `_ This is the number of orbitals involved in the entanglement calculation. It is taken equal to the number of active orbitals n_act_orb. `mutinf `_ mutinf is the mutual information (entanglement), calculated as I_ij=0.5*[S(1)_i+S(1)_j-S(2)_ij] see the refence: 10.1016/j.chemphys.2005.10.018 `pouet `_ Undocumented `routine `_ Undocumented