On the convergence of the normalized power sequence of spectral operators on Hilbert space

Abstract

Let H be a complex Hilbert space, and let B(H) denote the set of all bounded operators on H . For an operator T ∈ B(H), let |T| := (T*T)12. For A in B(H), we refer to the sequence, \ |An|1n \n ∈ N , as the normalized power sequence of A. As our main result, we prove that the normalized power sequence of a spectral operator in B(H) converges in norm, and provide an explicit description of the limit in terms of its idempotent-valued spectral resolution. Our approach substantially generalizes the corresponding result by the first-named author in the case of matrices in Mm(C), and supplements the Haagerup-Schultz theorem on SOT-convergence of the normalized power sequence of an operator in a II1 factor.

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