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The Fuglede conjecture for convex domains is true in all dimensions

Nir Lev, Máté Matolcsi

2022Acta Mathematica97 citationsDOIOpen Access PDF

Abstract

A set $\Omega \subset \mathbb{R}^d$ is said to be spectral if the space $L^2(\Omega)$ has an orthogonal basis of exponential functions. A conjecture due to Fuglede (1974) stated that $\Omega$ is a spectral set if and only if it can tile the space by translations. While this conjecture was disproved for general sets, it has long been known that for a convex body $\Omega \subset \mathbb{R}^d$ the "tiling implies spectral" part of the conjecture is in fact true. To the contrary, the "spectral implies tiling" direction of the conjecture for convex bodies was proved only in $\mathbb{R}^2$, and also in $\mathbb{R}^3$ under the a priori assumption that $\Omega$ is a convex polytope. In higher dimensions, this direction of the conjecture remained completely open (even in the case when $\Omega$ is a polytope) and could not be treated using the previously developed techniques. In this paper we fully settle Fuglede's conjecture for convex bodies affirmatively in all dimensions, i.e. we prove that if a convex body $\Omega \subset \mathbb{R}^d$ is a spectral set then $\Omega$ is a convex polytope which can tile the space by translations. To prove this we introduce a new technique, involving a construction from crystallographic diffraction theory, which allows us to establish a geometric "weak tiling" condition necessary for a set $\Omega \subset \mathbb{R}^d$ to be spectral.

Topics & Concepts

ConjectureCombinatoricsOmegaMathematicsRegular polygonPolytopeConvex setConvex polytopeSpace (punctuation)Discrete mathematicsGeometryConvex optimizationComputer sciencePhysicsOperating systemQuantum mechanicsMathematical Analysis and Transform MethodsAnalytic and geometric function theoryPoint processes and geometric inequalities
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