Dark Resonance Matter and Resonance-Floor Cosmology in USP Field Theory: A Structured Dark-Sector Framework

This paper develops a structured USP Field Theory interpretation of the dark sector. Instead of treating dark matter and dark energy as a single unexplained category, the document separates them into resonance-based branches: 1. Resonance-floor background — a large-scale cosmic field floor connected to photon corridor decay and the CMB resonance minimum. 2. Dark resonance matter — localized or clustered resonance structures that are gravitationally active but electromagnetically suppressed. 3. Confined dark-surface analogues — neutron-like examples where surface corridor cancellation occurs under environmental confinement. The central CMB-floor anchor is written in text form as: Delta fₘin = kB T / h ≈ 56 GHz at T = 2. 725 K This is not treated as a monochromatic spectral line. It is a stability boundary for resonant structure. The CMB blackbody peak near 160 GHz remains a statistical occupancy peak above the floor. The paper also distinguishes two microphysical dark-sector mechanisms: •Coherent cancellation: internal oscillatory structure remains active, but outward coupling is suppressed. •Resonance failure: corridor stabilization collapses, producing low-coupling gravitational residue. In USP language, dark resonance matter is therefore described as gravitationally active structure with suppressed electromagnetic scattering, absorption, or emission. The paper organizes these ideas into a testable framework using halo compatibility, CMB-floor constraints, lensing/rotation-curve comparison, laboratory low-coupling analogues, simulation pathways, and falsification criteria.