积分量子团簇结构

IF 2.3 1区数学 Q1 MATHEMATICS Duke Mathematical Journal Pub Date : 2020-03-09 DOI:10.1215/00127094-2020-0061

K. Goodearl, M. Yakimov

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引用次数: 10

摘要

我们证明了在$｛\mathbb｛Z｝｝[q^｛\pm 1/2｝]$上构造积分量子簇代数的一个一般定理，即在温和条件下，量子幂零代数的积分形式总是具有积分量子簇代结构。然后，这些代数被证明同构于相应的上量子簇代数，再次在${\mathbb｛Z｝}[q^｛\pm 1/2｝]$上定义。以前，这只为非循环量子簇代数所知。应用该定理证明了对于每一个可对称的Kac-Moody代数$｛\mathfrak｛g｝｝$和Weyl群元素$w$，对应量子单势单元的对偶正则形式$A_q（｛\mathfrak｛n｝｝_+（w））_｛\math bb｛Z｝[q^｛\pm 1｝]｝$具有$A_q}[q^｛\pm 1/2｝]$和${\mathbb上相应的上量子簇代数{Z} {q^｛\pm 1/2｝]$。

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Integral quantum cluster structures

We prove a general theorem for constructing integral quantum cluster algebras over ${\mathbb{Z}}[q^{\pm 1/2}]$, namely that under mild conditions the integral forms of quantum nilpotent algebras always possess integral quantum cluster algebra structures. These algebras are then shown to be isomorphic to the corresponding upper quantum cluster algebras, again defined over ${\mathbb{Z}}[q^{\pm 1/2}]$. Previously, this was only known for acyclic quantum cluster algebras. The theorem is applied to prove that for every symmetrizable Kac-Moody algebra ${\mathfrak{g}}$ and Weyl group element $w$, the dual canonical form $A_q({\mathfrak{n}}_+(w))_{\mathbb{Z}[q^{\pm 1}]}$ of the corresponding quantum unipotent cell has the property that $A_q( {\mathfrak{n}}_+(w))_{\mathbb{Z}[q^{\pm 1}]} \otimes_{\mathbb{Z}[q^{ \pm 1}]} {\mathbb{Z}}[ q^{\pm 1/2}]$ is isomorphic to a quantum cluster algebra over ${\mathbb{Z}}[q^{\pm 1/2}]$ and to the corresponding upper quantum cluster algebra over ${\mathbb{Z}}[q^{\pm 1/2}]$.

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