Microscopic Interpretation of The Gravity Electroweak Symmetry Breaking

In previous papers, we proposed detailing the concepts of gravity electroweak symmetry breaking, in the context of the multi-fold universe. Accordingly, massive particles are modeled as microscopic black holes as Higgs boson condensate Qballs, and massless particles are modeled as 2D random walk patterns of massless Higgs bosons. In this paper, we present a microscopic interpretation of what happens above, at and below the gravity electroweak symmetry breaking. This includes how we have condensation into a BEC Qball of Higgs condensate, while massless particles remain patterns of random walks, which disappear at higher temperatures, leading to eth Ultimate Unification (UU}, where only 2D random walks of massless bosons take place.