On a combinatorial curvature for surfaces with inversive distance circle packing metrics

Abstract: In this paper, we introduce a new combinatorial curvature on triangulated surfaces with inversive distance circle packing metrics. Then we prove that this combinatorial curvature has global rigidity. To study the Yamabe problem of the new curvature, we introduce a combinatorial Ricci flow, along which the curvature evolves almost in the same way as that of scalar curvature along the surface Ricci flow obtained by Hamilton \cite{Ham1}. Then we study the long time behavior of the combinatorial Ricci flow and obtain that the existence of a constant curvature metric is equivalent to the convergence of the flow on triangulated surfaces with nonpositive Euler number. We further generalize the combinatorial curvature to $\alpha$-curvature and prove that it is also globally rigid, which is in fact a generalized Bower-Stephenson conjecture \cite{BS}. We also use the combinatorial Ricci flow to study the corresponding $\alpha$-Yamabe problem.