Landé interval rule


In atomic physics, the Landé interval rule states that if the spin-orbit interactions of an electron are weak, the energy levels of each are split. Subsequently, each have a different angular momentum. The rule states that as a result of this, the frequency interval between successive energy levels is proportional to the larger of their total angular momentum values.

Background

The rule assumes the Russell–Saunders coupling and that interactions between spin magnetic moments can be ignored. The latter is an incorrect assumption for light atoms. As a result of this, the rule is optimally followed by atoms with medium atomic numbers.
The rule was first stated in 1923 by German-American physicist Alfred Landé.