arXiv:1102.5557 Abstract | arXiv Analytics

arXiv:1102.5557 [math.CA]Abstract References Reviews Resources

Periodicity of the spectrum of a finite union of intervals

Published 2011-02-27Version 1

A set $\Omega$, of Lebesgue measure 1, in the real line is called spectral if there is a set $\Lambda$ of real numbers such that the exponential functions $e_\lambda(x) = \exp(2\pi i \lambda x)$ form a complete orthonormal system on $L^2(\Omega)$. Such a set $\Lambda$ is called a spectrum of $\Omega$. In this note we present a simplified proof of the fact that any spectrum $\Lambda$ of a set $\Omega$ which is finite union of intervals must be periodic. The original proof is due to Bose and Madan.

Comments: 4 pages

Categories: math.CA

Subjects: 42B99

Keywords: finite union, periodicity, complete orthonormal system, lebesgue measure, real line

Related articles: Most relevant | Search more

arXiv:1108.5689 [math.CA] (Published 2011-08-29, updated 2012-02-21)

Periodicity of the spectrum in dimension one

Alex Iosevich, Mihail N. Kolountzakis

arXiv:1505.06833 [math.CA] (Published 2015-05-26)

On non-periodic tilings of the real line by a function

Mihail N. Kolountzakis, Nir Lev

arXiv:1604.01649 [math.CA] (Published 2016-04-06)