Schauder fixed-point theorem

The Schauder fixed point theorem is an extension of the Brouwer fixed point theorem to topological vector spaces such as Banach spaces. It asserts that if ${\displaystyle K}$ is a compact, convex subset of a topological vector space and ${\displaystyle T}$ is a continuous mapping of ${\displaystyle K}$ into itself, then ${\displaystyle T}$ has a fixed point. It was conjectured and proved for special cases (i.e. the banach case) by Juliusz Schauder. The full result was proven by Robert Cauty in 2001.

A consequence, called Schaefer's fixed point theorem, is particularly useful for proving existence of solutions to nonlinear partial differential equations. Schaefer's theorem is in fact a special case of the far reaching Leray-Schauder theorem which was discovered earlier by Schauder and Jean Leray. The statement is as follows. Let ${\displaystyle T}$ be a continuous and compact mapping of a Banach space ${\displaystyle X}$ into itself, such that the set

${\displaystyle \{x\in X:x=\lambda Tx{\mbox{ for some }}0\leq \lambda \leq 1\}}$

is bounded. Then ${\displaystyle T}$ has a fixed point.

• D. Gilbarg, N. Trudinger Elliptic Partial Differential Equations of Second Order. ISBN 3-540-41160-7.
• Robert Cauty, Solution du problème de point fixe de Schauder, Fund. Math. 170 (2001), 231-246

• "Schauder fixed point theorem". PlanetMath. with attached proof.