Galois Coverings, $τ$-Rigidity and Mutations (2410.21592v1)

Abstract: For an algebraically closed field $\mathbb{K}$, we consider a Galois $G$-covering $\mathcal{B} \to \mathcal{A}$ between locally bounded $\mathbb{K}$-categories given by bound quivers, where $G$ is torsion-free and acts freely on the objects of $\mathcal{B}$. We define the notion of $(G,\tau_{\mathcal{B}})$-rigid subcategory and of support $(G,\tau_{\mathcal{B}})$-tilting pairs over $\mathcal{B}$-$\rm mod$. These are the analogues of the similar concepts in the context of a finite-dimensional algebra, where we additionally require that the subcategory be $G$-equivariant. When $\mathcal{A}$ is a finite-dimensional algebra, we show that the corresponding push-down functor $\mathcal{F}{\lambda}: \mathcal{B}$-$\rm mod$ $\to \mathcal{A}$-$\rm mod$ sends $(G,\tau{\mathcal{B}})$-rigid subcategories (respectively support $(G,\tau_{\mathcal{B}})$-tilting pairs) to $\tau_{\mathcal{A}}$-rigid modules (respectively support $\tau_{\mathcal{A}}$-tilting pairs). We further show that there is a notion of mutation for support $(G,\tau_{\mathcal{B}})$-tilting pairs over $\mathcal{B}$-$\rm mod$. Mutations of support $\tau_\mathcal{A}$-tilting pairs and of support $(G,\tau_\mathcal{B})$-tilting pairs commute with the push-down functor. We derive some consequences of this, and in particular, we derive a $\tau$-tilting analogue of the result of P. Gabriel that locally representation-finiteness is preserved under coverings. Finally, we prove that when the Galois group $G$ is finitely generated free, any rigid $\mathcal{A}$-module (and in particular $\tau_\mathcal{A}$-rigid $\mathcal{A}$-modules) lies in the essential image of the push-down functor.