Spherical Milnor Spaces II: Projective Quotients and Higher Topological Structures

Abstract

We introduce a spherical variant of Milnor's classifying construction for diffeological groups, based on quadratic normalization of barycentric coordinates. This construction gives rise to a contractible diffeological space endowed with commuting actions of a group G and of Z2, leading naturally to a hierarchy of quotient spaces. We investigate the topological and geometric properties of these quotients, including a projective model and a double quotient space which encodes twisted and higher structures. In particular, we show that this framework provides a natural setting for the study of principal bundles with Z2-twists, and leads to obstruction classes in low-degree cohomology. The construction is further related to non-abelian gerbes and higher bundles, providing a bridge between diffeological geometry, classifying space theory, and higher topological structures.