Multiple Solutions for Semilinear Elliptic Boundary Value Problems at Resonance




Robinson, Steve B.

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Southwest Texas State University, Department of Mathematics


In recent years several nonlinear techniques have been very successful in proving the existence of weak solutions for semilinear elliptic boundary value problems at resonance. One technique involves a variational approach where solutions are characterized as saddle points for a related functional. This argument requires that the Palais-Smale condition and some coercivity conditions are satisfied so that the saddle point theorem of Ambrossetti and Rabinowitz can be applied. A second technique has been to apply the topological ideas of Leray-Schauder degree. This argument typically creates a homotopy with a uniquely solvable linear problem at one end and the nonlinear problem at the other, and then an a priori bound is established so that the homotopy invariance of Leray-Schauder degree can be applied. In this paper we prove that both techniques are applicable in a wide variety of cases, and that having both techniques at our disposal gives more detailed information about solution sets, which leads to improved existence results such as the existence of multiple solutions.



Landesman-Lazer condition, Leray-Schauder degree, Palais-Smale condition, Coercivity, Mountain pass, Morse index, Multiple solutions


Robinson, S. B. (1995). Multiple solutions for semilinear elliptic boundary value problems at resonance. Electronic Journal of Differential Equations, 1995(01), pp. 1-14.


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