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Spin-Impulse Topology of Force Fields and Its Cosmological Implications
2026-06-09

We propose a unified field theory based on a continuous, homogeneous, isotropic energy density continuum measured in Planck natural units [1, 2]. All field parameters are integer multiples of Planck units; no lengths smaller than the Planck length exist. A five-dimensional Möbius strip synchronizes the non-commutative impulse (gravity) and spin (electromagnetism) components, naturally yielding spin 1/2, the fine-structure constant α = 1/137, and the electron mass [10, 11]. The gravitational field emerges from the modal structure, reproducing Newton’s law and Einstein’s equations without singularities [3, 4, 5]. Cosmologically, mirror symmetry of the strip predicts equal amounts of matter and antimatter with effective antigravity between them, explaining accelerated expansion without ΛCDM [12, 13]. Dark matter is interpreted as hidden kinetic energy within the Gℏ quantum. We derive the dynamics of two interacting continua (matter and antimatter), obtain a variable cosmological constant depending on cluster distribution, and propose tests using Hubble parameter anisotropy and supernova magnitude differences. Future surveys can detect or constrain the anti-gravity constant A.

Ссылка для цитирования:

Melnitchenko Y. 2026. Spin-Impulse Topology of Force Fields and Its Cosmological Implications. PREPRINTS.RU. https://doi.org/10.24108/preprints-3115464

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