Paper detail

Higher localised $\hat{A}$-genera for proper actions and applications

For a finitely generated discrete group $Γ$ acting properly on a spin manifold $M$, we formulate new topological obstructions to $Γ$-invariant metrics of positive scalar curvature on $M$ that take into account the cohomology of the classifying space $\underline{B}Γ$ for proper actions. In the cocompact case, this leads to a natural generalisation of Gromov-Lawson's notion of higher $\hat{A}$-genera to the setting of proper actions by groups with torsion. It is conjectured that these invariants obstruct the existence of $Γ$-invariant positive scalar curvature on $M$. For classes arising from the subring of $H^*(\underline{B}Γ,\mathbb{R})$ generated by elements of degree at most $2$, we are able to prove this, under suitable assumptions, using index-theoretic methods for projectively invariant Dirac operators and a twisted $L^2$-Lefschetz fixed-point theorem involving a weighted trace on conjugacy classes. The latter generalises a result of Wang-Wang to the projective setting. In the special case of free actions and the trivial conjugacy class, this reduces to a theorem of Mathai, which provided a partial answer to a conjecture of Gromov-Lawson on higher $\hat{A}$-genera. If $M$ is non-cocompact, we obtain obstructions to $M$ being a partitioning hypersurface inside a non-cocompact $Γ$-manifold with non-negative scalar curvature that is positive in a neighbourhood of the hypersurface. Finally, we define a quantitative version of the twisted higher index and use it to prove a parameterised vanishing theorem in terms of the lower bound of the total curvature term in the square of the twisted Dirac operator.