English

Eigenfunction concentration via geodesic beams

Analysis of PDEs 2020-09-22 v3 Mathematical Physics math.MP Spectral Theory

Abstract

In this article we develop new techniques for studying concentration of Laplace eigenfunctions ϕλ\phi_\lambda as their frequency, λ\lambda, grows. The method consists of controlling ϕλ(x)\phi_\lambda(x) by decomposing ϕλ\phi_\lambda into a superposition of geodesic beams that run through the point xx. Each beam is localized in phase-space on a tube centered around a geodesic whose radius shrinks slightly slower than λ12\lambda^{-\frac{1}{2}}. We control ϕλ(x)\phi_\lambda(x) by the L2L^2-mass of ϕλ\phi_\lambda on each geodesic tube and derive a purely dynamical statement through which ϕλ(x)\phi_\lambda(x) can be studied. In particular, we obtain estimates on ϕλ(x)\phi_\lambda(x) by decomposing the set of geodesic tubes into those that are non self-looping for time TT and those that are. This approach allows for quantitative improvements, in terms of TT, on the available bounds for LL^\infty norms, LpL^p norms, pointwise Weyl laws, and averages over submanifolds.

Keywords

Cite

@article{arxiv.1903.08461,
  title  = {Eigenfunction concentration via geodesic beams},
  author = {Yaiza Canzani and Jeffrey Galkowski},
  journal= {arXiv preprint arXiv:1903.08461},
  year   = {2020}
}

Comments

61 pages, 2 figures. Improved exposition and includes new explanatory material in the introduction as well as an examples section (1.5) and a full section on comparison with previous work (1.6). Appendices A.1 (Index of notation) and B were also added

R2 v1 2026-06-23T08:13:50.444Z