Furkejuvvon:
| Váldodahkki: | |
|---|---|
| Materiálatiipa: | Recurso digital |
| Giella: | eaŋgalasgiella |
| Almmustuhtton: |
Zenodo
2026
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| Fáttát: | |
| Liŋkkat: | https://doi.org/10.5281/zenodo.20255682 |
| Fáddágilkorat: |
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Sisdoallologahallan:
- <p>This document investigates whether structured macroscopic objects can couple measurably to a nonzero vacuum resonance floor or to gradients of that floor near massive bodies within USP Field Theory.</p> <p>The analysis is deliberately conservative. It does not propose reactionless propulsion, vacuum thrust, or extraction of free energy from empty space. Instead, it distinguishes three regimes:</p> <p>1.symmetric free-space vacuum coupling, where net force cancels by symmetry;</p> <p>2.boundary-confined vacuum coupling, where Casimir-type effects provide an experimental anchor but face severe scaling limits;</p> <p>3.external-gradient and external-media coupling, where engineered structures may improve interaction with photons, plasma, residual atmosphere, magnetic fields, thermal recoil, tethers, or radiation pressure.</p> <p>The document uses the CMB-derived USP resonance floor:</p> <p>Delta f_min ~ k_B T / h ~ 5.7 × 10^10 Hz</p> <p>as an order-of-magnitude background anchor, while emphasizing that this is not a directly extractable macroscopic thrust frequency.</p> <p>A central result is the “Casimir scaling wall”: vacuum-boundary coupling is measurable under nanometer-scale confinement but becomes negligible at ordinary spacecraft structural scales. Counter-rotating ring stations are therefore treated not as vacuum thrusters, but as angular-momentum reservoirs and attitude-control systems that can maintain asymmetric coupling surfaces relative to real external momentum channels.</p> <p>The paper includes quantitative anchors, parameter tables, ISS-scale force estimates, sensor-resolution requirements, null-test protocols, and a methods appendix for residual-force experiments.</p> <p>The only USP-specific beyond-standard claim is framed as a falsifiable residual:</p> <p>F_residual proportional to grad(Delta f)</p> <p>meaning a geometry-correlated force or torque in a calibrated resonance-gradient environment after all known electromagnetic, thermal, radiation-pressure, plasma, atmospheric, magnetic, and gravitational-gradient effects are subtracted.</p> <p>The framework preserves conservation laws and standard orbital mechanics. Internal oscillatory structures can redistribute angular momentum and orientation, but net translation still requires external momentum exchange.</p>