Type III von Neumann Algebras associated with $Ø_θ$
Abstract: Let $\Fth$ be a 2 graph generated by $m$ blue edges and $n$ red edges, and $\omega$ be the distinguished faithful state associated with its graph C*-algebra $\O_\theta$. In this paper, we characterize the factorness of the von Neumann algebra $\pi_\omega(\O_\theta)"$ induced from the GNS representation of $\omega$ under a certain condition. Moreover, when $\pi_\omega(\O_\theta)"$ is a factor, then it is of type III${m{-\frac{1}{b}}}$ (or III${n{-\frac{1}{a}}}$) if $\frac{\ln m}{\ln n}\in\bQ$, where $a,b\in\bN$ with $\gcd(a,b)=1$ satisfy $ma=nb$, and of type III$1$ if $\frac{\ln m}{\ln n}\not\in\bQ$. In the case of $\theta$ being the identity permutation, our condition turns out to be redundant. On the way to our main results, we also obtain the structure of the fixed point algebra $\O\theta\sigma$ of the modular action $\sigma$ from $\omega$. This could be useful in proving the redundancy of our extra condition.
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