Research Papers

All publications and preprints from the Ashebo Method framework, from foundational theory to observational evidence. Download any paper directly.

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Mass GapFebruary 2026

Vacuum Strain and the Yang–Mills Mass Gap: A Physical Mechanism from Gluon Condensation

Physical mechanism for the Yang–Mills mass gap from gluon condensate vacuum strain. Includes effective potential figures, confinement via flux tubes, consistency checks against lattice data (SU(2)–SU(12)), and three novel predictions. Both parameters derived from QCD — zero free parameters.

m_gap = 1.65 ± 0.15 GeV (lattice: 1.71)Confinement: σ ≈ (440 MeV)²Consistency checks + 3 novel predictions
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UNIFIED PAPER — PreprintFebruary 2026

Vacuum Strain: Yang-Mills Mass Gap & the Origin of G

Unifies the Yang-Mills mass gap (Clay Millennium Problem) and the origin of Newton's G. Zero free parameters. G predicted to 0.064%.

Mass gap: 1.65 ± 0.15 GeVG = 6.670 × 10⁻¹¹Key prediction: ΔG/G ≈ -3 Δα/α
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PublicationJanuary 2026

Retrocausal 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.

Full Lagrangian derivationCorrespondence limits to Newton/QM/GR10,847 galaxies analyzed
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ReferenceJanuary 2026

Unified Framework Guide

Comprehensive guide tying together all papers. Standardized notation, cross-reference map, complete parameter table, and scale hierarchy diagram.

All symbols definedCross-reference mapScale hierarchy 10⁻¹⁵ m to Gpc
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FoundationNovember 2025

The Geometric Universe: Ashebo Valley Theory

Foundational work revealing particles as Resonance Valley geometries in two scalar fields: the Compression Field and Energy-Release Field.

Valley [neutron] geometryField asymmetry dynamicsWake effects
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Core TheoryMay 2025

Ashebo's Emergent Gravity

Gravity emerges from baryon asymmetry A(t) and restoration rate R(t). Predicts Lorentz symmetry as effective with testable residual violations.

g(t) = [A(t)R(t)M] / r²Lorentz violation ε ~ 7×10⁻²¹Testable predictions
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CosmologyOctober 2025

The Self-Constructing Universe

Cosmic evolution through feedback loops between compression and energy-release fields. Tidal forces as wake effects, emergent spacetime curvature.

Field-matter feedbackTidal forces as wakesEmergent spacetime
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MathematicalJanuary 2026

Emergent Gravity and Velocity-Dependent Interaction

Complete mathematical formalization with Lorentz-invariant Lagrangian density. Recovers Newtonian inverse-square law in static limit.

Scalar-tensor frameworkGravitational wake predictionLLR constraint η ≲ 10⁻¹²
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Quantum VacuumJanuary 2026

Casimir-Induced Matter Creation and Structure Formation

Coupling the compression field to quantum vacuum energy through the Casimir effect. Predicts matter creation from vacuum energy gradients.

Vacuum energy couplingMatter creation mechanismModified Casimir forces ~10⁻¹²
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ObservationalJanuary 2026

Universal Velocity Anisotropy: Multi-Cluster Evidence

Analysis of 4,572 galaxies across four clusters. All show velocity anisotropy (p < 0.0001) with mean σ_rad/σ_tan = 1.50, consistent with field-mediated gravity.

4/4 clusters detectedp < 0.0001 significancecos²θ pattern (r = 0.958)
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For MathematiciansFebruary 2026

Mathematical Collaboration Call

Mathematician-friendly technical note outlining the mechanism, conjectural statement, and constructive field theory connections.

Gauge-invariant operatorEffective scalar measureCollaboration invitation
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