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The Cramer-Wold theorem on quadratic surfaces and Heisenberg uniqueness pairs

Published 24 Aug 2016 in math.CA, math.AP, math.CV, math.FA, and math.PR | (1608.06738v1)

Abstract: Two measurable sets $S, \Lambda \subseteq \mathcal{R}d$ form a Heisenberg uniqueness pair, if every bounded measure $\mu$ with support in S whose Fourier transform vanishes on {\Lambda} must be zero. We show that a quadratic hypersurface and the union of two hyperplanes in general position form a Heisenberg uniqueness pair in $\mathcal{R}d$. As a corollary we obtain a new, surprising version of the classical Cram\'er-Wold theorem: a bounded measure supported on a quadratic hypersurface is uniquely determined by its projections onto two generic hyperplanes (whereas an arbitrary measure requires the knowledge of a dense set of projections). We also give an application to the unique continuation of eigenfunctions of second-order PDEs with constant coefficients .

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