A new filtration of the Magnus kernel of the Torelli group

Abstract

For a oriented genus g surface with one boundary component, S, the Torelli group is the group of orientation preserving homeomorphisms of S that induce the identity on homology. The Magnus representation of the Torelli group represents the action on F/F" where F=pi1(S) and F" is the second term of the derived series. We show that the kernel of the Magnus representation, Mag(S), is highly non-trivial and has a rich structure as a group. Specifically, we define an infinite filtration of Mag(S) by subgroups, called the higher order Magnus subgroups, Mk(S). We develop methods for generating nontrivial mapping classes in Mk(S) for all k and g>1. We show that for each k the quotient Mk(S)/Mk+1(S) contains a subgroup isomorphic to a lower central series quotient of free groups E(g-1)k/E(g-1)k+1. Finally We show that for g>2 the quotient Mk(S)/Mk+1(S) surjects onto an infinite rank torsion free abelian group. To do this, we define a Johnson-type homomorphism on each higher order Magnus subgroup quotient and show it has a highly non-trivial image.