Pseudo-monotone operator
In mathematics, a pseudo-monotone operator from a reflexive Banach space into its continuous dual space is one that is, in some sense, almost as well-behaved as a monotone operator. Many problems in the calculus of variations can be expressed using operators that are pseudo-monotone, and pseudo-monotonicity in turn implies the existence of solutions to these problems.
Definition
Let (X, || ||) be a reflexive Banach space. A map T : X → X∗ from X into its continuous dual space X∗ is said to be pseudo-monotone if T is a bounded operator (not necessarily continuous) and if whenever
- [math]\displaystyle{ u_{j} \rightharpoonup u \mbox{ in } X \mbox{ as } j \to \infty }[/math]
(i.e. uj converges weakly to u) and
- [math]\displaystyle{ \limsup_{j \to \infty} \langle T(u_{j}), u_{j} - u \rangle \leq 0, }[/math]
it follows that, for all v ∈ X,
- [math]\displaystyle{ \liminf_{j \to \infty} \langle T(u_{j}), u_{j} - v \rangle \geq \langle T(u), u - v \rangle. }[/math]
Properties of pseudo-monotone operators
Using a very similar proof to that of the Browder–Minty theorem, one can show the following:
Let (X, || ||) be a real, reflexive Banach space and suppose that T : X → X∗ is bounded, coercive and pseudo-monotone. Then, for each continuous linear functional g ∈ X∗, there exists a solution u ∈ X of the equation T(u) = g.
References
- Renardy, Michael; Rogers, Robert C. (2004). An introduction to partial differential equations. Texts in Applied Mathematics 13 (Second ed.). New York: Springer-Verlag. pp. 367. ISBN 0-387-00444-0. (Definition 9.56, Theorem 9.57)
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