Characteristic classes of fiberwise branched surface bundles via arithmetic

Abstract

This paper is about cohomology of mapping class groups from the perspective of arithmetic groups. For a closed surface S of genus g, the mapping class group Mod(S) admits a well-known arithmetic quotient Mod(S)→ Sp(2g, Z), under which the stable cohomology of Sp(2g,Z) pulls back to algebra generated by the odd MMM classes of Mod(S). We extend this example to other arithmetic groups associated to mapping class groups and explore some of the consequences for surface bundles. For G=Z/mZ and for a regular G-cover S→ S' (possibly branched), a finite index subgroup < Mod( S') admits a homomorphism to an arithmetic group SpG<Sp(2g,Z). The induced map on cohomology can be understood using index theory. To this end, we describe a families version of the G-index theorem for the signature operator and apply this to (i) compute H2(SpG;Q)→ H2(;Q), (ii) re-derive Hirzebruch's formula for signature of a branched cover (in the case of a surface bundle), (iii) compute Toledo invariants of surface group representations to SU(p,q) arising from Atiyah--Kodaira constructions, and (iv) describe how classes in H*(SpG;Q) give equivariant cobordism invariants for surface bundles with a fiberwise G action, following Church--Farb--Thibault.