# Molecular terms

Molecular terms refer to MO-LCAO theory of molecular orbitals.

### Homonuclear molecules[edit | edit source]

A molecule is said to be homonuclear if it's made of two identical atoms. For this kind of molecules there are special symmetries in the hamiltonian:

- symmetry with respect to the center :
- symmetry with respect to the bound axis, which we choose to be the z axis:
- symmetry with respect to every plane orthogonal to the bound axis : . However and we can't construct a C.S.C.O of eigenstates common to . We have to choose or , but since the eigenstates of with are also eigenstates of and we can classify these states with an additional index

A molecular orbital is a linear combination of atomic orbitals of atom with that of atom and is described by a greek small letter identifying m-value plus a subscript for the parity, for even orbitals or for odd orbitals.

**molecular terms**are then given by the assignment of the total angular momentum projection ,a superscript on the left for spin multiplicity and the subscript for the overall parity, plus the superscript for terms.

- Write the expression for each atom electronic configuration:
- Since and parity is governed by -values we can combine atomic orbitals with . Furthermore since we must have . Thus we are allowed to combine with and with .
- Put the electrons in the so-found molecular orbitals starting from the lowest energy orbital. There isn't a general rule which regulates the energy scale of molecular orbitals. However for homonuclear molecules experiments show that:

In our example the electronic configuration of is then

- Closed shells do not contribute to the molecular terms, so consider just not completely full shells. Find the possible values of and looking at the allowed configurations.For each configuration find the corresponding and,eventually, indexes with the help of the following rules: . The molecular term for ground state is then .

Let us discuss the problem of finding molecular terms for the excited configuration of : . We neglect the 's orbitals since they're full. Possible configurations are:

So that we have for the terms (following the order of the image): . For there is just one term that is . Now we add each term corresponding to possible configurations to the term related to , and we obtain:

### Non-homonuclear molecules[edit | edit source]

A molecule is said to be non-homonuclear if it's made of two atoms of different species. For this kind of molecules there are less symmetries than in homonuclear molecules:

- There isn't symmetry with respect to the center :
- The symmetry with respect to the bound axis, which we choose to be the z axis,is still present:
- The symmetry with respect to every plane orthogonal to the bound axis is still present and the same considerations hold.

The procedure for finding molecular orbitals and molecular terms is almost the same sketched for homonuclear molecules. The main difference is:

- Since symmetry with respect to the center has been broken there is no supscript neither in molecular orbitals nor in molecular terms. Furthermore we can combine
**also**atomic orbitals with if they have For example and can mix together. Because of the energy difference between different n shells and in order to simplify calculations we will not assume (and other analogue pairs) mixing to be possible if one of these orbitals is completely full.