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Suppose that two different eigenstates
and
of the observable
correspond to the *same* eigenvalue
. These states are termed *degenerate*
eigenstates. Degenerate eigenstates are
necessarily orthogonal to any eigenstates corresponding to
different eigenvalues, but, in general, they are not orthogonal to each other
(i.e., the proof of orthogonality given in Section 1.8 does not work in this case).
This is unfortunate, because much of the previous formalism depends crucially
on the mutual orthogonality of the different eigenstates
of an observable. Note, however, that
any linear combination of
and
is also
an eigenstate corresponding to the eigenvalue
. It follows that we
can always *construct* two mutually orthogonal degenerate eigenstates.
For instance,

This result is easily generalized to the case of more than two degenerate eigenstates.
We conclude that it is always possible to construct a complete set of mutually
orthogonal eigenstates for any given observable.

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Richard Fitzpatrick
2013-04-08