We propose that the space-time quanta be represented by the 24-cell, a highly-symmetric and self-dual 4-polytope. The 24-cell's symmetric properties align with the requirements of representing elementary particles within the standard model, offering explanations for phenomena like color confinement and the Higgs coupling.
The identification of the 24-cell structure as space-time quanta provides a geometric interpretation for various particles within the standard model, such as gluons, fermions, gauge bosons, and the Higgs particle. This representation links the structure to phenomena like mass creation and the flatness of the observable universe.
The proposed idea suggests that the creation of a mass of space-time quanta, indicated by the vanishing of uncertainty at certain energy scales, aligns with experimental measurements and the length scale of mass creation. This concept bridges theoretical frameworks with practical observations, offering a comprehensive understanding of space-time quanta.
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