Locally finite weighted Leavitt path algebras
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A group graded $K$-algebra $A=\bigoplus\limits_{g\in G} A_g$ is called "locally finite" if $\dim_K A_g < \infty$ for every $g\in G$. We characterise the weighted graphs $(E,w)$ for which the weighted Leavitt path algebra $L_K(E,w)$ is locally finite with respect to its standard grading. We also prove that the locally finite weighted Leavitt path algebras are precisely the Noetherian ones and that $L_K(E,w)$ is locally finite iff $(E,w)$ is finite and the Gelfand-Kirillov dimension of $L_K(E,w)$ equals $0$ or $1$. Further it is shown that a locally finite weighted Leavitt path algebra is isomorphic to a locally finite Leavitt path algebra and therefore is isomorphic to a finite direct sum of matrix algebras over $K$ and $K[X,X^{-1}]$.
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Weighted Leavitt path algebras that are isomorphic to unweighted Leavitt path algebras
Characterizes row-finite weighted graphs (E,w) such that L_K(E,w) ≅ some unweighted L_K(F) and proves that local finiteness, Noetherian, Artinian, von Neumann regular, or finite GK-dimension properties imply the isomorphism.
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