Canonical definition of the SFV/dSB framework
This specifies the ontology, benchmark parameters, assumptions, scope, and falsifiability criteria of the model, and unifies a series of previously published and forthcoming works addressing cosmological expansion, matter content, particle mass hierarchies, electroweak scales, primordial structure formation, and late-time acceleration.
Read Paper →First-Principles Two-Field Bounce in the SFV/dSB Model
We present a reproducible, first-principles computation of a two-field Coleman bounce in the Superfluid False Vacuum / de Sitter Brane (SFV/dSB) model.
Read Paper →Baryon and Dark Matter Densities from Dual-Channel Transport in the SFV/dSB Model
This paper details the successful first-principles numerical simulation of matter creation within the Superfluid False Vacuum/de Sitter Brane (SFV/dSB) cosmological model, correctly reproducing the observed dark matter-to-baryon ratio.
Read Paper →From Two-Field Bounce to Early Galaxies: A First-Principles SFV/dSB Prediction for JWST’s Bright High-z Population
We present an end-to-end, first-principles pipeline that maps parameters of a two-field bounce in the SFV/dSB framework to linear matter power, halo abundances, and predicted UV luminosity functions
Read Paper →BAO & H0 with Emergent Time in the SFV/dSB Model
We present a fully reproducible pipeline that connects a successful two-field bounce in the Superfluid False Vacuum / de Sitter Brane (SFV/dSB) model to bounce-derived pre recombination expansion (Lane B) capable of matching BAO data
Read Paper →A Non-Ad Hoc SFV/dSB Resolution of the Hubble Inference Split
We show that in the Superfluid Vacuum / de Sitter brane (SFV/dSB) framework, a small, smooth rescaling of the emergent-time “clock speed” that is geometrically tied to the radiation–matter mixture near equality (z ∼ 3400) naturally increases the pre-recombination expansion rate
Read Paper →From Dimensionless Bounce to Physical SFV: A Reproducible Calibration of the Superfluid False Vacuum
We present a fully reproducible pipeline that maps a numerically constructed, dimen- sionless O(4) bounce in a two-field potential to a physically calibrated Superfluid False Vacuum (SFV).
Read Paper →From SFV Bulk Properties to Lepton and Quark Masses via 1D Localization and Overlap Integrals
We present a complete and reproducible pipeline that maps macroscopic parameters of the Superfluid False Vacuum / de Sitter Brane (SFV/dSB) framework to the microscopic spectrum of charged leptons and quarks.
Read Paper →UV_Gauge_Normalization_from_Wall_Energetics___PHASE_B
We study a superfluid false vacuum / de Sitter brane (SFV/dSB) cosmology where the observable Universe resides on the thin (moderate-thick) wall of a nucleated bubble. Phase A proposes that the brane wall sets the UV normalization of gauge kinetic terms. Using O(4) bounce data, we extract a wall strip integral ˜τ and a dimensionless wall thickness
Read Paper →Gauge__Kinetic_Normalization_from_Brane_Wall_Energetics__PHASE_A
This note documents a minimal Route-II implementation in which an SFV phase mode (a bulk axion-like field) dynamically relaxes ¯θ to (nearly) zero even when complex Yukawa overlaps generate arg det(Mq) ∼ O(1). The core SFV/dSB task becomes the axion quality problem: deriving an explicit PQ-breaking scale ΛPQ from bounce microphysics and ensuring the residual θeff lies below EDM bounds.
Read Paper →Strong CP in the SFVdSB Framework A Bulk Axion Route II Module
We test a minimal, first–principles ansatz in the SFV/dSB framework: the thin brane wall that nucleates the Universe sets the UV normalization of brane–localized gauge fields.
Read Paper →A First-Principles Cross-Check of a Two-Field Thick-Wall O(4) Bounce
We present an end-to-end cross-check of a two-field, thick-wall O(4)-symmetric bounce com- puted with two independent pipelines
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