Reversing orientation homeomorphisms of surfaces

Abstract

Let M be a connected compact orientable surface, f:M R be a Morse function, and h:M M be a diffeomorphism which preserves f in the sense that f h = f. We will show that if h leaves invariant each regular component of each level set of f and reverses its orientation, then h2 is isotopic to the identity map of M via f-preserving isotopy. This statement can be regarded as a foliated and a homotopy analogue of a well known observation that every reversing orientation orthogonal isomorphism of a plane has order 2, i.e. is a mirror symmetry with respect to some line. The obtained results hold in fact for a larger class of maps with isolated singularities from connected compact orientable surfaces to the real line and the circle.