Multiplicative Entropy Encodes Time-Causality; Gauge Mediates Mass-Gravity

This paper proposes a unified model where spacetime is composed of discrete units -Space Elementary Quanta (SEQ). (i)Time emerges from irreversible state transitions of the SEQ network, with each step corresponding to a calculable entropy(S=∏mᵢ, i∈N) from transformation matrices governing spatial changes. (ii)Crucially, matter itself is a manifestation of compressed space: SU(3) symmetry mediates local SEQ compression, storing energy as mass while stretching surrounding space to generate gravity. The Higgs field stabilizes compressed regions via symmetry breaking, acting as a "quantum lock". (iii)This model explains why time slows near massive objects—local compressed SEQ network undergo fewer state transitions frequency. (iv)The model makes testable predictions, including a chiral asymmetry in electron-positron magnetic moments due to their distinct coupling to the fixed-spin SEQ ground state. (v)It also resolves black hole singularities by imposing an upper limit on SEQ tension. (vi) By treating spacetime as a dynamic quantum-elastic network, this framework bridges general relativity, quantum field theory, and thermodynamics.