Generalized Kac-Paljutkin algebras

Abstract: In this note, we construct a family of semisimple Hopf algebras $H_{n,m}$ of dimension $n^m m!$ over a field of characteristic zero containing a primitive $n$th root of unity, where $n, m \geq 2$ are integers. The well-known eight-dimensional Kac--Paljutkin algebra arises as the special case $H_{2,2}$, while the Hopf algebras previously constructed by Pansera correspond to the instances $H_{n,2}$. Each algebra $H_{n,m}$ is defined as an extension of the group algebra $\mathbb{K} \Sigma_m$ of the symmetric group by the $m$-fold tensor product $R = \mathbb{K} \mathbb{Z}n^{\otimes m}$, where $\mathbb{Z}_n$ denotes the cyclic group of order $n$. This extension admits a realization as a crossed product: $H{n,m} = \mathbb{K} \mathbb{Z}n^{\otimes m} #\gamma \Sigma_m$. In the final section, we construct a family of irreducible $m$-dimensional representations of $H_{n,m}$ that are inner faithful as $R$-modules and exhibit a nontrivial inner-faithful action of a subalgebra of $H_{n,m}$ on a quantum polynomial algebra.