Geometric reduction of the string landscape

Abstract

The string background AdS7XS4 and dual CFT are adopted, and symmetric, multidimensional objects are identified as elements of the 7-dimensional vacuum that complements 4-spacertime in the proposed, 11-dimensional theory. Increments of the proposed, multidimensional elements with respect to increments of linear scale are (assuming a vacuum density) interpreted as creation operators or Higgs events that break SU(7). Each creation operator (each symmetry breaking event) and resulting mass is identified as a gauge transformation that preserves SUGRA gauge. If appropriately calibrated, the proposed model approximates the masses of the fermionic spectrum and predicts a new lepto-quark state of mass M ≅ 30 GeV/c2. Because the proposed model derives quantization from gauge invariance (as proposed by F. London in 1927), this model can be implemented as a large scale quantization which results in a galactic hierarchy of states that maximize Riemannian symmetry. If the number of such states is equal to the range of the quantum number which, in the micro-scale model, generates the approximate lepto-quark masses, then the large scale model generates a theoretical number of galaxies that approximates the number indicated by observation.