Iterative actions of normal operators (Q350534)

The authors study subsets of an infinite-dimensional Hilbert space \(\mathcal H\) of the form NEWLINE\[NEWLINE \{A^ng:g\in \mathcal G, \, 0\leq n < L(g)\} NEWLINE\]NEWLINE where \(A\) is a bounded normal operator, \(\mathcal G\) is a finite or countably infinite subset of \(\mathcal H\) and \(L\) is a function: \(\mathcal G\to \{1,2,\dots\}\cup \{+\infty\}\). The questions asked are when this system is complete, a Bessel system, a basis, or a frame for \(\mathcal H\), and conversely, what can be said about the operator \(A\) if the system turns out to be of this kind. The motivation for this work comes from dynamic sampling theory and it is connected to several topics in functional and applied harmonic analysis.NEWLINENEWLINEIn this thorough paper, a number of different results are obtained, many formulated in terms of the spectral measure of \(A\). Some of the results are negative, for example, one stating that if \(A\) is reductive and \(\mathcal G\) is finite, then the system \(\{A^ng\}_{g\in \mathcal G, 0\leq n < L(g)}\) cannot be a basis.