Geometric evolution as a source of discontinuous behavior in soft condensed matter

Geometric evolution represents a fundamental aspect of many physical phenomena. In this paper we consider the geometric evolution of structures that undergo topological changes. Topological changes occur when the shape of an object evolves such that it either breaks apart or converges back into itself to form a loop. Changes to the topology of an object are fundamentally discrete events. We consider how discontinuities arise during geometric evolution processes by characterizing the possible topological events and analyzing the associated source terms based on evolution equations for geometric invariants. We show that the discrete nature of a topological change leads to discontinuous source terms that propagate to physical variables.