Restricted open-shell Hartree–Fock

Restricted open-shell Hartree–Fock (ROHF) is a variant of Hartree–Fock theory for open shell molecules. It uses doubly occupied molecular orbitals as far as possible and then singly occupied orbitals for the unpaired electrons. This is the simple picture for open shell molecules but it is difficult to implement.

As with restricted Hartree–Fock theory for closed shell molecules, it leads to Roothaan equations written in the form of a generalized eigenvalue problem

\mathbf {F} \mathbf {C} =\mathbf {S} \mathbf {C} \mathbf {\epsilon }

Where F is the so-called Fock matrix, C is a matrix of coefficients, S is the overlap matrix of the basis functions, and $\epsilon$ is the (diagonal, by convention) matrix of orbital energies. Unlike restricted Hartree–Fock theory for closed shell molecules, the form of the Fock matrix is not unique. Different so-called canonicalisations can be used leading to different orbitals and different orbital energies, but the same total wavefunction, total energy, and other observables.

In contrast to unrestricted Hartree–Fock (UHF), the ROHF wave function is a satisfactory eigenfunction of the total spin operator - $\mathbf {S} ^{2}$ .

Developing post-Hartree–Fock methods based on a ROHF wave function is inherently more difficult than using a UHF wave function, due to the lack of a unique set of molecular orbitals. However, different choices of reference orbitals have shown to provide similar results,^[1] and thus many different post-Hartree–Fock methods have been implemented in a variety of electronic structure packages.

References

^ Jensen, F. (2007), Introduction to Computational Chemistry 2nd edition, Wiley

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[1] Jensen, F. (2007), Introduction to Computational Chemistry 2nd edition, Wiley

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