T\ete-\`a-t\ete graphs and twists

Abstract

This is a PhD thesis in low-dimensional topology. Its main purpose is to examine so-called t\ete-\`a-t\ete twists. Those were defined by A'Campo and give an easy combinatorial description of certain mapping classes on surfaces with boundary. Whereas the well-known Dehn twists are twists around a simple closed curve, t\ete-\`a-t\ete twists are twists around a graph. It is shown that t\ete-\`a-t\ete twists describe all the (freely) periodic mapping classes. This leads, among other things, to a stronger version of Wiman's 4g+2 theorem from 1895 for surfaces with boundary. On closed surfaces, some t\ete-\`a-t\ete twists can be used to generate the mapping class group. Another main result is a simple criterion to decide whether a Seifert surface of a link is a fibre surface. This gives a short topological proof of the fact that a Murasugi is fibred if and only if its two summands are.