Quadratic Euler Characteristic of Geometrically Cyclic Branched Coverings

Abstract

For an n-fold geometrically cyclic branched covering Y of a smooth, projective scheme X branched at a smooth closed subscheme Z⊂ X with n ∈ k×, we compute the quadratic Euler characteristic of Y in terms of certain Euler classes on X and Z using the quadratic Riemann-Hurwitz formula of Levine. In certain cases with n odd, we relate the quadratic Euler characteristic of Y to the quadratic Euler characteristics of X and Z, obtaining similar formulae to the situation in topology. As an application, we compute the quadratic Euler characteristic of geometrically cyclic branched double coverings of P2.