A hybrid Krasnosel'ski\u{i}-Schauder fixed point theorem for systems
A hybrid Krasnosel'ski\u{i}-Schauder fixed point theorem for systems
We provide new results regarding the localization of the solutions of nonlinear operator systems. We make use of a combination of Krasnosel'ski\u{\i} cone compression-expansion type methodologies and Schauder-type ones. In particular we establish a localization of the solution of the system within the product of a conical shell and of a closed convex set. By iterating this procedure we prove the existence of multiple solutions. We illustrate our theoretical results by applying them to the solvability of systems of Hammerstein integral equations. In the case of two specific boundary value problems and with given nonlinearities, we are also able to obtain a numerical solution, consistent with our theoretical results.
Comment: 15 pages
Mathematics - Functional Analysis, Mathematics - Classical Analysis and ODEs, Primary 47H10, secondary 45G15, 34B18
Mathematics - Functional Analysis, Mathematics - Classical Analysis and ODEs, Primary 47H10, secondary 45G15, 34B18
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