Variational problems in L∞ involving semilinear second order differential operatorsKatzourakis, N. and Moser, R. (2023) Variational problems in L∞ involving semilinear second order differential operators. ESAIM Control Optimization & Calculus of Variations, 29. 76. ISSN 1262-3377
It is advisable to refer to the publisher's version if you intend to cite from this work. See Guidance on citing. To link to this item DOI: 10.1051/cocv/2023066 Abstract/SummaryFor an elliptic, semilinear differential operator of the form S(u) = A : D2u + b(x, u, Du), consider the functional E∞(u) = ess supΩ, |S(u)|. We study minimisers of E∞ for prescribed boundary data. Because the functional is not differentiable, this problem does not give rise to a conventional Euler-Lagrange equation. Under certain conditions, we can nevertheless give a system of partial differential equations that all minimisers must satisfy. Moreover, the condition is equivalent to a weaker version of the variational problem. The theory of partial differential equations therefore becomes available for the study of a large class of variational problems in L∞ for the first time.
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