Upper triangular Toeplitz matrices and real parts of quasinilpotent operators
Kenneth DykemaJunsheng FangAnna Skripka
15A6047B47Toeplitz matricesquasinilpotent operators
We show that every self-adjoint matrix $B$ of trace $0$ can be realized as $B=T+T^{*}$ for a nilpotent matrix $T$ with $\|T\|\le K\|B\|$, for a constant $K$ that is independent of matrix size. More particularly, if $D$ is a diagonal, self-adjoint $n\times n$ matrix of trace $0$, then there is a unitary matrix $V=XU_n$, where $X$ is an $n\times n$ permutation matrix and $U_n$ is the $n\times n$ Fourier matrix, such that the upper triangular part, $T$, of the conjugate $V^{*}DV$ of $D$ satisfies $\|T\|\le K\|D\|$. This matrix $T$ is a strictly upper triangular Toeplitz matrix such that $T+T^{*}=V^{*}DV$. We apply this and related results to give partial answers to questions about real parts of quasinilpotent elements in finite von Neumann algebras.
Indiana University Mathematics Journal
2014
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10.1512/iumj.2014.63.5193
10.1512/iumj.2014.63.5193
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Indiana Univ. Math. J. 63 (2014) 53 - 75
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