-д хадгалсан:
| Үндсэн зохиолч: | |
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| Формат: | Recurso digital |
| Хэл сонгох: | |
| Хэвлэсэн: |
Zenodo
2026
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| Онлайн хандалт: | https://doi.org/10.5281/zenodo.18932124 |
| Шошгууд: |
Шошго нэмэх
Шошго байхгүй, Энэхүү баримтыг шошголох эхний хүн болох!
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Агуулга:
- <div> <div>Papers I–III reconstructed gravitational geometry, quantum dynamics, and measurement structure from operational axioms, treating a finite certification bandwidth ω* as a foundational input. This paper derives ω* < ∞ from first principles and establishes its role as a measurable universal constant.</div> <br> <div>Three structural theorems establish: (i) a unique strictly-positive minimum coherence loss σ_{t,min} > 0 for any extended frame (cube-root extremum from convexity); (ii) a finite operational ceiling ω* = 1/σ_{t,min} that no protocol can exceed; and (iii) a universal asymptotic envelope depending only on c, ℏ, G and the operational parameter R⁴/T. A universality theorem proves that sector-dependent variation in ω* would violate intersubjective stability, forcing a single ceiling across all physical channels.</div> <br> <div>Four observable deformation channels are derived, all governed by the same ω*:</div> <br> <div>1. **Gravitational-wave dispersion** — ω^(+2) arrival-time delay, no free parameters, dispersion relation ω_k² = q²(1 + q²/ω*²)</div> <div>2. **Acceleration-dependent proper-time slip** — coefficient κ_a = 1/2 from Euclidean budget split</div> <div>3. **Entanglement visibility suppression** across gravitational gradients</div> <div>4. **Born rule saturation** at large outcome complexity</div> <br> <div>Because all four depend on the same ω*, their experimental bounds intersect in a consistency window. The current window is:</div> <br> <div>10^15 rad/s ≲ ω* ≲ 10^22 rad/s</div> <br> <div>Next-generation experiments in gravitational-wave astronomy and satellite quantum optics can narrow this to two orders of magnitude; window closure falsifies the framework.</div> <br> <div>**This paper is part of the Finite Accessibility series, which reconstructs gravitational geometry, quantum dynamics, gauge structure, cosmological perturbation theory, and the dark sector from a single operational primitive: a finite certification ceiling ω* governing the maximum rate at which physical relations can be maintained across extended domains.**</div> <br> <div>**Introductory papers**</div> <div>- Geometric Limits to Coherent Timekeeping in Extended Reference Frames — https://doi.org/10.5281/zenodo.18824556</div> <div>- Accessibility Selection Law (ASL) — https://doi.org/10.5281/zenodo.18824649</div> <div>- Phase Boundary Gravity — https://doi.org/10.5281/zenodo.18824707</div> <br> <div>**Pillars (numbered I–IV)**</div> <div>- Paper I: Deriving Gravitational Geometry and Schrödinger Dynamics from Finite Accessibility — https://doi.org/10.5281/zenodo.18601600</div> <div>- Paper II: Deriving Inertia, Motion, and Wave Propagation from Finite Accessibility — https://doi.org/10.5281/zenodo.18625174</div> <div>- Paper III: Accessible State Spaces, Record Stability, and the Emergence of Quantum Statistics — https://doi.org/10.5281/zenodo.18625192</div> <div>- Paper IV: Frame Dissolution, the Certification Ceiling, and Observable Deformations — https://doi.org/10.5281/zenodo.18654458</div> <br> <div>**Extension papers**</div> <div>- Dark Matter from Finite Accessibility — https://doi.org/10.5281/zenodo.18654433</div> <div>- Dark Energy from Finite Accessibility — https://doi.org/10.5281/zenodo.18654523</div> <div>- No-Go Theorems and the Admissibility Corridor — https://doi.org/10.5281/zenodo.18654493</div> <div>- Gauge Structure from Finite Accessibility — https://doi.org/10.5281/zenodo.18928152</div> <div>- Perturbation Theory from Finite Accessibility — https://doi.org/10.5281/zenodo.18928213</div> <br> <div>**Experimental paper**</div> <div>- Experimental Probes of Finite Accessibility: GW Dispersion and Vacuum Path Independence — https://doi.org/10.5281/zenodo.18931126</div> <br> <div>**Keywords:**</div> <div>frame dissolution, certification ceiling, omega star, observable deformations, gravitational wave dispersion, proper-time slip, entanglement visibility, Born rule saturation, universality theorem, coherence loss, intersubjective stability, consistency window, falsifiability, finite accessibility, operational constant, quantum gravity phenomenology</div> </div>