On the large-scale geometry of graph braid groups via cubical structures

Abstract

We study the large-scale geometry of graph braid groups Bn(), viewed as the fundamental groups of discrete configuration spaces UDn(), which are special cube complexes in the sense of Haglund--Wise. Exploiting this cubical structure, we relate hyperbolicity, undistorted surface subgroups, and group-theoretic decompositions. As a consequence, we obtain a complete classification of when Bn() is quasi-isometric to a free group via a purely geometric argument independent of discrete Morse theory. We then focus on graph 2-braid groups. Using maximal product subcomplexes of UD2() and the intersection complex introduced in Oh22, we show that, under natural assumptions, their union captures essential quasi-isometry information about B2(). As applications, we construct infinitely many graph 2-braid groups that are quasi-isometric to right-angled Artin groups and infinitely many that are not, extending Oh22, and we exhibit new phenomena in relative hyperbolicity.