Projective geometries, $Q$-polynomial structures, and quantum groups

arXiv - MATH - Quantum Algebra Pub Date : 2024-07-20 DOI:arxiv-2407.14964
Paul Terwilliger
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Abstract

In 2023 we obtained a $Q$-polynomial structure for the projective geometry $L_N(q)$. In the present paper, we display a more general $Q$-polynomial structure for $L_N(q)$. Our new $Q$-polynomial structure is defined using a free parameter $\varphi$ that takes any positive real value. For $\varphi=1$ we recover the original $Q$-polynomial structure. We interpret the new $Q$-polynomial structure using the quantum group $U_{q^{1/2}}(\mathfrak{sl}_2)$ in the equitable presentation. We use the new $Q$-polynomial structure to obtain analogs of the four split decompositions that appear in the theory of $Q$-polynomial distance-regular graphs.
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投影几何、Q$-多项式结构和量子群
2023 年,我们获得了投影几何$L_N(q)$的$Q$-多项式结构。在本文中,我们为$L_N(q)$展示了一个更一般的$Q$-多项式结构。我们新的 $Q$-polynomial 结构是用一个自由参数 $\varphi$ 来定义的,它可以取任何正实值。当$\varphi=1$时,我们将覆盖原来的$Q$-多项式结构。我们用等价呈现中的量子群 $U_{q^{1/2}}(\mathfrak{sl}_2)$来解释新的$Q$-多项式结构。我们利用新的 $Q$-polynomial 结构来获得在 $Q$-polynomial 距离规则图理论中出现的四种分裂分解的类似物。
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arXiv - MATH - Quantum Algebra
arXiv - MATH - Quantum Algebra
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