This record contains the complete PDF repository of the Thermodynamic Vacuum Cosmological Framework (TVCF) inflationary extension. The framework presents an alternative approach to early-universe cosmology in which the vacuum energy density is treated as a dynamical quantity depending on the Hubble parameter. By introducing a higher-order H⁴ contribution at high energies, the model generates a quasi-de Sitter inflationary phase without requiring an inflaton field, together with a natural graceful exit and continuous radiation production. The repository includes the full theoretical development of the framework, covering:- Core formulation of the TVCF model- Early-universe extension- Background dynamics and inflationary regime- Radiation production and reheating- Effective causal structure and horizon problem- Minimal perturbation theory- Primordial observables and observational signatures- Late-time consistency- Limitations and open problems- Future directions and research roadmap- Extended perturbative sector and scalar mode identification- Effective Mukhanov–Sasaki-type equation- Thermodynamic origin of fluctuations- Distinctive predictions and observational targets This work should be understood as a structured and internally consistent research program rather than a fully closed cosmological theory. It establishes a foundation for further theoretical and observational development.
Edo Ram (Wed,) studied this question.
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