English

Decay and Smoothness for Eigenfunctions of Localization Operators

Functional Analysis 2020-08-12 v3

Abstract

We study decay and smoothness properties for eigenfunctions of compact localization operators. Operators with symbols a in the wide modulation space M^{p,\infty} (containing the Lebesgue space L^p), p<\infty, and windows \f_1,\f_2 in the Schwartz class are known to be compact. We show that their L^2-eigenfuctions with non-zero eigenvalues are indeed highly compressed onto a few Gabor atoms. Similarly, for symbols a in the weighted modulation spaces M^{\infty}_{v_s\otimes 1} (\rdd), s>0 (subspaces of M^{p,\infty}(\rdd), p>2d/s) the L^2-eigenfunctions of the localization operator are actually Schwartz functions. An important role is played by quasi-Banach Wiener amalgam and modulation spaces. As a tool, new convolution relations for modulation spaces and multiplication relations for Wiener amalgam spaces in the quasi-Banach setting are exhibited.

Keywords

Cite

@article{arxiv.1902.03413,
  title  = {Decay and Smoothness for Eigenfunctions of Localization Operators},
  author = {Federico Bastianoni and Elena Cordero and Fabio Nicola},
  journal= {arXiv preprint arXiv:1902.03413},
  year   = {2020}
}

Comments

To appear on J. Math. Anal. Appl

R2 v1 2026-06-23T07:36:33.833Z