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| Format: | Recurso digital |
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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.18601768 |
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Table of Contents:
- <p>We present a unified physical framework in which gravity, quantum</p> <p>measurement, time, and cosmological redshift emerge from the discrete</p> <p>angular coherence of a rotating lattice structure, termed the Holosphere.</p> <p>Each Holosphere is a neutron-scale spinning unit composed of smaller</p> <p>Planck-scale spheres, arranged into concentric shells. These shells form</p> <p>a nested, finite but unbounded universe whose global rotation induces</p> <p>Lorentz-boosted scalar fields, radial frame dragging, and spiral photon</p> <p>geodesics.</p> <p>Redshift arises not from metric expansion but from angular strain ac-</p> <p>cumulated by light spiraling outward through increasingly faster rotating</p> <p>shells. Time dilation, galaxy migration, and the appearance of isotropy</p> <p>are shown to follow naturally from this structure, without requiring inflation</p> <p>or comoving coordinates. At quantum scales, particles emerge</p> <p>as resonance defects in the lattice, with entanglement and collapse rein-</p> <p>terpreted as phase synchronization and decoherence of coherent triplet</p> <p>orbitals. Thermodynamic behavior—including entropy, temperature, and</p> <p>the arrow of time—is recast as the diffusion of angular phase alignment.</p> <p>The Holosphere framework yields falsifiable predictions across multi-</p> <p>ple domains: plateauing time dilation at high redshift, CMB anisotropies</p> <p>traceable to rotational shells, and scalar-field-driven galaxy migration</p> <p>without invoking dark energy or dark matter. This paper consolidates</p> <p>over forty appendices developing the theory’s physical, observational, and</p> <p>mathematical structure, offering a novel, testable alternative to both CDM</p> <p>cosmology and standard quantum field theory.</p>