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Representations of the $n$ dimensional quantum torus (1505.00363v1)

Published 2 May 2015 in math.QA

Abstract: The $n$-dimensional quantum torus $\mathcal O_{\mathbf q}((F\times)n)$ is defined as the associative $F$-algebra generated by $x_1, \cdots, x_n$ together with their inverses satisfying the relations $x_ix_j = q_{ij}x_jx_i$, where $\mathbf q = (q_{ij})$. We show that the modules that are finitely generated over certain commutative sub-algebras $\mathscr B$ are $\mathscr B$-torsion-free and have finite length. We determine the Gelfand-Kirillov dimensions of simple modules in the case when [ \Kdim(\mathcal O_{\mathbf q}((F\times)n)) = n - 1, ] where $\Kdim$ stands for the Krull dimension. In this case if $M$ is a simple $\mathcal O_{\mathbf q}((F\times)n)$-module then $ \gk(M) = 1$ or [ \gk(M) \ge \gk(\mathcal O_{\mathbf q}((F\times)n)) - \gk(\mathcal Z(\mathcal O_{\mathbf q}((F\times)n))) - 1,] where $\mathcal Z(C)$ stands for the center of an algebra $C$. We also show that there always exists a simple $F \s A$-module satisfying the above inequality.

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