Independent Researcher
Alberta, Canada
Yohannes Beyene Ashebo
Theoretical Physicist & Framework Developer
Yohannes Beyene Ashebo is an independent researcher based in Alberta, Canada, who has developed a novel unified theoretical framework spanning particle physics, emergent gravity, and cosmic evolution.
His work proposes a field-first ontology where particles emerge as geometric structures (resonance valleys) from fundamental scalar fields, gravity arises from collective dynamics rather than spacetime curvature, and the universe self-constructs through feedback loops between fields and matter.
Research Journey
A Mathematical Framework for an Emergent Gravity Model
Presented the complete mathematical framework showing how gravity emerges from baryon asymmetry A(t) and symmetry restoration R(t) dynamics. Included phase space analysis, numerical simulations, and testable predictions.
Download PaperLorentz Symmetry in Ashebo's Emergent Gravity Framework
Demonstrated how Lorentz symmetry emerges as an effective symmetry at macroscopic scales from microscopic symmetry-breaking dynamics. Predicted residual violations testable in precision experiments.
Download PaperThe Self-Constructing Universe
Applied the framework to cosmology, showing how the universe evolves through field-matter feedback loops. Explained structure formation, tidal forces as wake effects, and spacetime emergence without requiring dark matter.
Download PaperThe Geometric Universe: Ashebo Valley Theory
Published the foundational work establishing particles as resonance valley geometries emerging from compression and energy-release field interactions. Introduced the valley [neutron] as a specific geometric configuration rather than a fundamental particle.
Download PaperRetrocausal Field Theory and the Emergence of Gravity
Complete mathematical framework unifying quantum mechanics and gravity through retrocausal dynamics. Full Lagrangian formulation with observational evidence from 10,847 galaxies across ten clusters.
Download PaperUnified Framework Guide
Comprehensive reference tying together all papers with standardized notation, cross-reference map, complete parameter table, and scale hierarchy diagram spanning 10⁻¹⁵ m to Gpc.
Download PaperVacuum Strain: Yang–Mills Mass Gap
FEATUREDUnifies the Yang–Mills mass gap (Clay Millennium Problem) and the origin of Newton's G. Physical mechanism from gluon condensation with zero free parameters. Mass gap predicted at 1.65 ± 0.15 GeV (lattice: 1.71 GeV). G predicted to 0.064% accuracy.
Download PaperVideo Demonstrations
Explore visual simulations and explanations of The Ashebo Method on the "An Evolving Gravity" YouTube channel.
Planetary-to-Star Transformation
Simulation showing how increasing baryon asymmetry affects the transition from planetary to stellar states according to emergent gravity principles.
Watch on YouTubeTensor Network Visualizations
Visual representations of emergent gravity using tensor networks, demonstrating field interactions and valley formation dynamics.
Watch on YouTubeGet in Touch
Interested in collaborating, discussing the framework, or learning more? Feel free to reach out.
Affiliation: Independent Researcher, Alberta, Canada