Earle–Hamilton fixed-point theorem
In mathematics, the Earle–Hamilton fixed point theorem is a result in geometric function theory giving sufficient conditions for a holomorphic mapping of an open domain in a complex Banach space into itself to have a fixed point. The result was proved in 1968 by Clifford Earle and Richard Hamilton by showing, with respect to the Carathéodory metric on D, f is a contraction mapping to which the contraction mapping theorem can be applied.
Statement
Let D be a connected open subset of a complex Banach space X and let f be a homolomorphic mapping of D into itself such that:
- the image f(D) is bounded in norm;
- the distance between points f(D) and points in the exterior of D is bounded below by a positive constant.
Then the mapping f has a unique fixed point x in D and if y is any point in D
References
- Earle, Clifford J.; Hamilton, Richard S. (1970), A fixed point theorem for holomorphic mappings, Proc. Sympos. Pure Math., vol. XVI, American Mathemetical Society, pp. 61–65
- Harris, Lawrence A. (2003), "Fixed points of holomorphic mappings for domains in Banach spaces", Abstr. Appl. Anal., 5: 261–274
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