Lower bounds for eigenfunction restrictions in lacunary regions

Abstract

Let (M,g) be a compact, smooth Riemannian manifold and \uh\ be a sequence of L2-normalized Laplace eigenfunctions that has a localized defect measure μ in the sense that M supp(π* μ) ≠ where π:T*M M is the canonical projection. Using Carleman estimates we prove that for any real-smooth closed hypersurface H ⊂ (M supp (π* μ)) sufficiently close to supp(π* μ), and for all δ >0, ∫H |uh|2 dσ ≥ Cδ\, e- [\, d(H, supp(π* μ)) + \,δ] /h as h 0+. We also show that the result holds for eigenfunctions of Schr\"odinger operators and give applications to eigenfunctions on warped products and joint eigenfunctions of quantum completely integrable (QCI) systems.

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