Fermionic Universe Hypothesis + Table of Fermionic Field Parameters

This record presents an updated formulation of the Fermionic Universe Hypothesis (FUH), in which a single multicomponent fermion field ψ is treated as the microscopic origin of (at least part of) the observable particles, interactions, and gravitational phenomena. Gauge fields and gravity are not introduced as independent fundamental entities but arise as collective excitations and emergent effects of a ψ‑condensate defined by a four‑fermion fundamental Lagrangian and its low‑energy effective action, in line with other fermion–condensate cosmologies and emergent‑gravity approaches.  Building on the previous version of FUH, this release adds an explicit parameter table for the fermionic field, specifying the physical meaning, motivated ranges, and observational tests for the key quantities (mψ, GS, β1) that control the background expansion, small‑scale structure, and strong‑field behavior. This makes the framework more predictive and falsifiable by linking the microphysics of the ψ‑condensate directly to measurable cosmological and astrophysical observables, including the matter power spectrum, dwarf‑galaxy cores, black‑hole shadows, and gravitational‑wave signals.