On Representation of the Reeb Graph as a Sub-Complex of Manifold

Abstract

The Reeb graph R(f) is one of the fundamental invariants of a smooth function f M R with isolated critical points. It is defined as the quotient space M/\! of the closed manifold M by a relation that depends on f. Here we construct a 1-dimensional complex (f) embedded into M which is homotopy equivalent to R(f). As a consequence we show that for every function f on a manifold with finite fundamental group, the Reeb graph of f is a tree. If π1(M) is an abelian group, or more general, a discrete amenable group, then R(f) contains at most one loop. Finally we prove that the number of loops in the Reeb graph of every function on a surface Mg is estimated from above by g, the genus of Mg.