Krein–Rutman theorem
In functional analysis, the Krein–Rutman theorem is a generalisation of the Perron–Frobenius theorem to infinite-dimensional Banach spaces.[1] It was proved by Krein and Rutman in 1948.[2]
Statement
Let X be a Banach space, and let K⊂X be a convex cone such that K-K is dense in X. Let T:X→X be a non-zero compact operator which is positive, meaning that T(K)⊂K, and assume that its spectral radius r(T) is strictly positive.
Then r(T) is an eigenvalue of T with positive eigenvector, meaning that there exists u∈K\0 such that T(u)=r(T)u.
De Pagter's theorem
If the positive operator T is assumed to be ideal irreducible, namely, there is no ideal J≠0,X such that T J⊂J, then de Pagter's theorem[3] asserts that r(T)>0.
Therefore, for ideal irreducible operators the assumption r(T)>0 is not needed.
Notes
- ↑ Du, Y. (2006). "1. Krein–Rutman Theorem and the Principal Eigenvalue". Order structure and topological methods in nonlinear partial differential equations. Vol. 1. Maximum principles and applications. Series in Partial Differential Equations and Applications. Hackensack, NJ: World Scientific Publishing Co. Pte. Ltd. ISBN 981-256-624-4. MR 2205529.
- ↑ Kreĭn, M.G.; Rutman, M.A. (1948). "Linear operators leaving invariant a cone in a Banach space". Uspehi Matem. Nauk (N. S.) (in Russian). 3 (1(23)): 1–95. MR 0027128.. English translation: Kreĭn, M.G.; Rutman, M.A. (1950). "Linear operators leaving invariant a cone in a Banach space". Amer. Math. Soc. Transl. 1950 (26). MR 0038008.
- ↑ de Pagter, B. (1986). "Irreducible compact operators". Math. Z. 192 (1): 149–153. MR 0835399. doi:10.1007/bf01162028.