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Power bounded $m$-left invertible operators (1903.03417v2)
Published 8 Mar 2019 in math.FA
Abstract: A Hilbert space operator $S\in\B$ is left $m$-invertible by $T\in\B$ if $$\sum_{j=0}m{(-1){m-j}\left(\begin{array}{clcr}m\j\end{array}\right)TjSj}=0,$$ $S$ is $m$-isometric if $$\sum_{j=0}m{(-1){m-j}\left(\begin{array}{clcr}m\j\end{array}\right){S*}jSj}=0$$ and $S$ is $(m,C)$-isometric for some conjugation $C$ of $\H$ if $$\sum_{j=0}m{(-1){m-j}\left(\begin{array}{clcr}m\j\end{array}\right){S*}jCSjC}=0.$$ If a power bounded operator $S$ is left invertible by a power bounded operator $T$, then $S$ (also, $T*$) is similar to an isometry. Translated to $m$-isometric and $(m,C)$-isometric operators $S$ this implies that $S$ is $1$-isometric, equivalently isometric, and (respectively) $(1,C)$-isometric.