Solvency Field Theory (Version 6. 1) The Unified Bimodal Ledger: From Local Vacuum Geometry to Dynamic Dark Energy Overview Solvency Field Theory (SFT) is a first-principles theoretical framework that derives both local gravitational geometry and the global Hubble expansion rate as necessary thermodynamic responses to the accumulation of cosmic information. In this framework, spatial expansion is not driven by a static vacuum energy (), and local gravity is not mediated by a fundamental attractive force or invisible dark matter. Instead, both are physical requirements to maintain the universe's bimodal holographic information bound as new entropy is continuously generated, stored, and geometrically allocated. By treating the universe as a holographic information-processing system, SFT unifies the astrophysics of structural formation with the exact exterior geometry of black holes and stars. The Cosmological Engine: The Bimodal Ledger Utilizing 150 gigabytes of high-resolution cosmological telemetry from the IllustrisTNG (TNG300) simulation, SFT demonstrates that successful mathematical closure of the cosmic equation of state requires a strict bimodal ledger decomposition: The Active Transactional Channel (Baryonic RAM): The violent, dissipative collapse of baryonic gas and black-hole accretion. This time-dependent entropy generation drives the evolutionary running (wₐ) of the dark energy equation of state. The Passive Structural Channel (Cold Storage): The persistent informational occupancy cost of maintaining organized gravitational architecture. This channel is tied exclusively to the non-linear assembly of virialized dark matter halos (M₂₀₀₂), setting the present-day resting depth (w₀). By mapping the Bekenstein bound to the empirical cosmic mass budget, the global SFT engine natively reproduces the DESI DR2/Y3 and Pantheon+ observational anomalies from purely astrophysical first principles. Without employing a cosmological constant or scalar fields, the bimodal SFT engine yields a highly stable CPL shadow of w₀ = -0. 837, wₐ = -0. 615. The Version 6. 1 Breakthrough: Exact Local Geometric Closure Version 6. 1 extends the framework from the cosmological horizon down to the stellar surface. V6. 1 introduces a formal symbolic proof that the local SFT Compactness Burden variable (= GM/2c²r) is not merely a phenomenological screening tool. Within the static, spherically symmetric exterior vacuum sector, the SFT compactness limit structurally forces the exact Schwarzschild exterior metric, explicitly forbidding all higher-order nonlinear artifacts. When pressure is introduced, the source sector elegantly closes to the exact Tolman-Oppenheimer-Volkoff (TOV) hydrostatic equations. Repository File Manifest (V6. 1 Reader's Guide) To maintain clarity and cleanly separate foundational axioms from rigorous geometric proofs and phenomenological testing, the Solvency Field Theory V6. 1 release is modularized. Readers are encouraged to navigate the supporting bundle based on their domain of interest: The Main SFT Framework (SFTAcademicV6Unified draft7): Outlines the overarching theoretical architecture, bimodal information channels, the TNG300 baryonic fuel crisis, and the fundamental axioms of the cosmological ledger. A Structural Synthesis of Modern Physics: Where SFT Plugs into Modern Physics A Structural Synthesis Appendix A and B: Appendix to Structural Physics document SFT Local Master with TOV (SFTLocalMasterwithTOVₑdit. pdf): The rigorous mathematical and geometric backbone of the local theory. This note contains the formal symbolic derivation proving that the SFT compactness variable structurally selects the exact Schwarzschild vacuum metric and the exact TOV hydrostatic equations. Dynamic Dark Energy from an Evolving Availability Reservoir SFTNoteV6Companion SFT Phase III: Local Ledger Cost (SFTPhaseIIILocalLedgerCost. pdf): The phenomenological translation of the framework. This document walks through the step-by-step derivation of the Compactness Burden parameter () from Landauer bit-flip principles and demonstrates velocity matching for observed galactic rotation curves without dark matter. Unified Synthesis Note (unifiedₛftLocalScreeningCosmicBurdenₙote. pdf): A concise bridging document that synthesizes the local compactness-screened Newtonian branch with the cosmological expansion side, demonstrating the framework's nontrivial alignment with the official DESI DR2 basewwa observations. Support File Packages
Shaun Fosmark (Sun,) studied this question.