Two-step minimization approach to an L∞-constrained variational problem with a generalized potential
Abstract
We study a variational problem on H1( R) under an L∞-constraint related to Sobolev-type inequalities for a class of generalized potentials, including Lp-potentials, non-positive potentials, and signed Radon measures. We establish various essential tools for this variational problem, including the decomposition principle, the comparison principle, and the perturbation theorem, which are the basis of the two-step minimization method. As for their applications, we present precise results for minimizers of minimization problems, such as the study of potentials of Dirac's delta measure type and the analysis of trapped modes in potential wells.
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