20 Observable Predictions of Quarkbase Cosmology presents the first complete catalogue of twenty fully testable predictions derived from Quarkbase Cosmology, a pressure-field framework in which comet behaviour, graphene transport anomalies, galactic rotation, quantum coherence, and nuclear energetics originate from a single underlying scalar field. Each prediction is formulated with explicit observables and strict falsifiability criteria. At the astrophysical scale, the framework predicts universal activation bands in interstellar comets, diagonal correlations in CO₂/H₂O ratios, pressure-memory signatures in jet alignment, and the possibility of reconstructing a 3D galactic pressure map from comet data. In condensed matter, Quarkbase invariants fix graphene’s monolayer absorbance, require superconductivity without Cooper pairs, and explain ultrahigh thermal conductivity as Ψ-transport rather than phonon behaviour. On galactic and cosmological scales, rotation curves must follow a Yukawa potential with a fixed range of ~50 kpc, large-scale filaments must trace interference modes of the Ψ-field, redshift must arise from time-varying refractive index rather than metric expansion, and supercluster sizes must satisfy a specific resonance condition. At the quantum scale, double-slit impacts must reveal self-focusing behaviour, and entanglement must persist as a continuous extended mode. In nuclear physics, fission energetics must match observations using only Ψ-pressure geometry, without invoking mass defects. Any single contradictory measurement falsifies the framework; coherent confirmation across domains would support Quarkbase Cosmology as a unified physical description.
Date: Nov 26, 2025
Author: Carlos Omeñaca Prado
ORCID: https://orcid.org/0009-0001-9750-5827
Resource type: Preprint
Publisher: Zenodo
License: CC BY-SA 4.0 International
Related links:
- https://zenodo.org/records/17718206
- https://archive.org/details/20-observable-predictions-of-quarkbase-cosmology
- https://www.academia.edu/145248276/20_Observable_Predictions_of_Quarkbase_Cosmology