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arxiv: 2312.07092 · v1 · pith:NNWACSHVnew · submitted 2023-12-12 · 🧮 math.AP

Normalized ground states for Schr\"odinger equations on metric graphs with nonlinear point defects

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keywords graphsgraphgrounddefectsnonlinearperiodicpointstates
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We investigate the existence of normalized ground states for Schr\"odinger equations on noncompact metric graphs in presence of nonlinear point defects, described by nonlinear $\delta$-interactions at some of the vertices of the graph. For graphs with finitely many vertices, we show that ground states exist for every mass and every $L^2$-subcritical power. For graphs with infinitely many vertices, we focus on periodic graphs and, in particular, on $\mathbb{Z}$-periodic graphs and on a prototypical $\mathbb{Z}^2$-periodic graph, the two-dimensional square grid. We provide a set of results unravelling nontrivial threshold phenomena both on the mass and on the nonlinearity power, showing the strong dependence of the ground state problem on the interplay between the degree of periodicity of the graph, the total number of point defects and their dislocation in the graph.

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