Monoidal Structures in Orthogonal Calculus

Abstract

Orthogonal Calculus, first developed by Weiss in 1991, provides a calculus of functors for functors from real inner product spaces to spaces. Many of the functors to which Orthogonal Calculus has been applied since carry an additional lax symmetric monoidal structure which has so far been ignored. For instance, the functor V BO(V) admits maps BO(V) × BO(W) BO(V W) which determine a lax symmetric monoidal structure. Our first main result, Corollary 4.2.0.2, states that the Taylor approximations of a lax symmetric monoidal functor are themselves lax symmetric monoidal. We also study the derivative spectra of lax symmetric monoidal functors, and prove in Corollary 5.4.0.1 that they admit O(n)-equivariant structure maps of the form nF nF DO(n) nF where DO(n) SAdn is the Klein-Spivak dualising spectrum of the topological group O(n). As our proof methods are largely abstract and ∞-categorical, we also formulate Orthogonal Calculus in that language before proving our results.