arXiv:1909.09500 Abstract | arXiv Analytics

arXiv:1909.09500 [math.FA]Abstract References Reviews Resources

On $n$th roots of normal operators

Published 2019-09-20Version 1

For $n$-normal operators $A$ [2, 4, 5], equivalently $n$-th roots $A$ of normal Hilbert space operators, both $A$ and $A^*$ satisfy the Bishop--Eschmeier--Putinar property $(\beta)_{\epsilon}$, $A$ is decomposable and the quasi-nilpotent part $H_0(A-\lambda)$ of $A$ satisfies $H_0(A-\lambda)^{-1}(0)=(A-\lambda)^{-1}(0)$ for every non-zero complex $\lambda$. $A$ satisfies every Weyl and Browder type theorem, and a sufficient condition for $A$ to be normal is that either $A$ is dominant or $A$ is a class ${\mathcal A}(1,1)$ operator.

Comments: 9 pages

Categories: math.FA

Subjects: 47A05, 47A55, 47A80, 47A10

Keywords: normal operators, th roots, normal hilbert space operators, browder type theorem, sufficient condition

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arXiv:1909.09500 [math.FA]Abstract References Reviews Resources

On $n$th roots of normal operators

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On $n$th roots of normal operators

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arXiv:1909.09500 [math.FA]Abstract References Reviews Resources