Abstract
It is well known that the scalar field equationΔu−u+up=0inRN,N⩾3, admits ground state solutions if and only if 1p(N+2)/(N−2) and that for each fixed p in this range, there corresponds a unique ground state (up to translation). In this article, we show that the maximum value of such ground states, ‖u‖∞, is an increasing function of p for all 1p(N+2)/(N−2). As a consequence of this result we derive a Liouville type theorem ensuring that there exist...
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It is well known that the scalar field equationΔu−u+up=0inRN,N⩾3, admits ground state solutions if and only if 1p(N+2)/(N−2) and that for each fixed p in this range, there corresponds a unique ground state (up to translation). In this article, we show that the maximum value of such ground states, ‖u‖∞, is an increasing function of p for all 1p(N+2)/(N−2). As a consequence of this result we derive a Liouville type theorem ensuring that there exists neither a ground state solution to this equation, nor a positive solution of the Dirichlet problem in any finite ball, with the maximum value less than eN/4. Our proof relies on some fine analyses on the first variation of ground states with respect to the initial value and with respect to p. The delicacy of this study can be evidenced by the fact that, on any fixed finite ball, the maximum value of positive solutions to the Dirichlet problem is never a monotone function of p, over the whole range 1p(N+2)/(N−2).
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Journal title
Ann. L'institu Henri . Poincare Analise Non. Lineaire.
