Summability properties of Gabor expansions
classification
🧮 math.CV
math.FA
keywords
gaborexpansionsspectralsynthesissystemsthereadmitbasis
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We show that there exist complete and minimal systems of time-frequency shifts of Gaussians in $L^2(\mathbb{R})$ which are not strong Markushevich basis (do not admit the spectral synthesis). In particular, it implies that there is no linear summation method for general Gaussian Gabor expansions. On the other hand we prove that the spectral synthesis for such Gabor systems holds up to one dimensional defect.
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