Quantum Spacetime Imprints: The 24-Cell, Standard Model Symmetry and Its Flavor Mixing

Abstract

In our previous work FaragAli:2024jpo we outlined an exploratory framework in which the 24-cell acts both as the quantum of spacetime and as a geometric representation of elementary particles. In this paper we provide comprehensive mathematical and phenomenological evidence that deepens and refines this primary model. The symmetry of the 24-cell yields a unified hypercharge functional that reproduces Standard Model hypercharge assignments while ensuring anomaly cancellation. By projecting the vertices of the 24-cell onto a three-dimensional flavor subspace using a Minimal Distortion Principle, an emergent tetrahedral structure appears that gives rise to an effective A4 symmetry in the neutrino sector. Extending this discrete symmetry to its binary double cover T provides the spinorial representations and intrinsic complex phases needed to generate realistic quark Yukawa textures. Guided by the tenet that spacetime and matter are inextricably linked, our analysis suggests that the intricate flavor mixing of the Standard Model may be a residual imprint of the underlying quantum-geometric nature of spacetime.

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