Paper 028 presents a set of calibrated benchmarks for the 72-vertex residual sector within the UNIVERSE131/H4-Z60 discrete framework. While Paper 027 established the atomic-periodic core, this manuscript packages new quantitative modules from the soryushiₜogensov2. py audit log into a collider-oriented benchmark set. Within the adopted 600-cell coordinate construction, the residual sector is partitioned by the discrete quantity hopf\q into six occupied levels: -0. 75, -0. 50, -0. 25, +0. 25, +0. 50, and +0. 75. Notably, no residual vertices appear at hopf\q = 0, defining an unoccupied internal gap in the spectrum. By anchoring these levels to the Z-boson mass (MZ) through the adopted benchmark formula m = MZ ^ (4 + hopf\q + d₌₈₍), the model yields six discrete mass scales: 586. 6, 661. 5, 746. 1, 949. 1, 1070. 4, and 1207. 2 GeV, with an intermediate gap near 841. 5 GeV. The paper further provides deterministic assignments for spin, charge, and color, along with nearest-neighbor decay routes. These are mapped to broad LHC-style search classes, specifically "multi-jet" for color-triplet benchmarks and "E₌₈ₒₒ + jets" for neutral-singlet dark-matter-like benchmarks. The contribution of Paper 028 is a set of blind, reproducible targets designed for future collider analysis and falsification.
Ken et al. (Wed,) studied this question.