Let $T$ and $S$ be two symmetric, compact linear operators on a (separable) Hilbert space $H$ that commute. Why is there at least 1 common eigenvector of $T$ and $S$?
Common eigenvector of linear operator
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linear-algebra
hilbert-spaces
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0@t.b.: Well, right; same reason you would want "symmetric" in the finite-dimensional case... – 2012-04-16
1 Answers
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Two commuting compact operators are simultaneously diagonalizable. This means that there exists an orthonormal basis such that both $S$ and $T$ are diagonal with respect to that basis, i.e. every vector in such a basis is a common eigenvector.
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0Hi Martin. Do you happen to know if a finite family of commuting compact operators on a **Banach** space has a common eigenvector? – 2017-12-07