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[6] ai.viXra.org:2510.0080 [pdf] submitted on 2025-10-30 23:27:47
Authors: Joseph Shaffer
Comments: 5 Pages.
The focus of this series of papers is to confirm the theory that deterministic quantum descriptions of entanglement interactions between galaxies occur at infinite speeds. We verify this approach by comparing galactic rotation curves using our theoretical assertion with actual observed rotation curves, and calculating the disparity between theory and observation.
Category: Astrophysics
[5] ai.viXra.org:2510.0055 [pdf] submitted on 2025-10-23 20:22:25
Authors: Matt Hosking
Comments: 6 Pages.
The enduring discrepancy between the Hubble constant inferred from the cosmic microwave background and local observations challenges the completeness of the standard ΛCDM model. This study builds upon recent explorations of cosmic rotation, proposing a rotational-spiral cosmology that introduces a minute primordial vorticity, subtly influencing the early universe’s dynamics. By integrating the gravitational wave energy injected from primordial black hole clustering during the QCD epoch, the model enhances the effective radiation density, thereby compressing the comoving sound horizon and advancing the recombination epoch to 372,000 to 374,000 years. Quantitative analysis reveals an elevation of the CMB-inferred Hubble constant to 68.5 to 69 km s−1 Mpc−1, offering a partial alignment with local measurements consistent with recent BAO constraints. Theframework remains compatible with Planck and CMB isotropy limits and provides distinctive testable predictions, notably galaxy spin alignments detectable with DESI. This refined interpretation relies solely on general relativity, presenting a novel perspective on the Hubble tension without invoking new physics.
Category: Astrophysics
[4] ai.viXra.org:2510.0034 [pdf] submitted on 2025-10-13 20:09:51
Authors: Enver Torlakovic
Comments: 20 Pages. Python computational scripts included for proofing purposes (Note by ai.viXra.org Admin: Please cite listed scientific references)
The Gravity Emergence Model (GEM), integrated with the Vacuum Energy Quanta Field (VEQF) Theory and Mass Emergence Model (MEM), redefines gravity as an emergent, entropy-driven thermodynamic process at mesoscopic scales (lq=1e-20 m). Building on the Inevitability of Energy Density Gradients (EDG) Theorem and emergent inverse-square law, we derive gravitational binding energy Ui without explicit mass or G, reducing to a core thermodynamic term , Cp*DeltaT*Ni^2/Ri, where Ni (total coherent nodes) proxies emergent mass via the Transactional Configuration Index (TCI). EDGs provide the guiding slope for matter drift, with self-amplifying feedback: Initial coalescence deepens gradients, accelerating further binding. The 1/r^2 scaling emerges geometrically from 3D Poisson solutions to localized interference sources. GEM aligns with GR binding energies across 13 celestial bodies (discrepancy ~0.02% RMS), validated numerically. This non-quantum model—distinct from Planck-scale effects—offers a physical pathway.
Category: Astrophysics
[3] ai.viXra.org:2510.0032 [pdf] replaced on 2025-11-23 14:48:35
Authors: Joseph Shaffer
Comments: 14 Pages. Reprinted from Physics Essays Vol. 38 pp. 353-359 Year 2025, with permission of Physics Essays.
Some fifty years ago it was noted that the rotation speeds of galaxies were too great for the gravitational force of all the available galactic mass to balance it. People therefore invented the idea of dark matter in the form of weakly interacting massive particles (WIMPs) to supply the missing mass. In spite of heroic efforts, such particles have not been found. If WIMPs don't exist then the problem isn't missing mass. It's missing force. This paper proposes that entanglement driven forces act as a fundamental component of cosmic structure stability. Conventional physics assumes forces propagate at finite speeds but we will assume otherwise. We postulate that entangled objects share a unified quantum state that allows instant interaction beyond classical constraints. This mechanism may account for anomalies in galactic rotation and explain synchronization of cosmic structures. A series of observational tests are outlined to verify this by offering alternative explanations for missing mass phenomenon and synchronization in galaxy motion. An Addendum is included with supporting calculations that verify the postulate.
Category: Astrophysics
[2] ai.viXra.org:2510.0030 [pdf] submitted on 2025-10-11 22:36:10
Authors: Enver Torlakovic
Comments: 7 Pages.
This monograph presents the Vacuum Energy Quanta Field (VEQF) theory—a non-geometric, non-quantum, empirically driven framework that unifies particle physics, gravity, and cosmology through a single physical principle: Energy Density Gradients (EDGs) are inevitable and govern all cosmic dynamics. We prove that EDGs arise necessarily from localized mass via interference and thermodynamic feedback, resolve the quasar—CMB dipole misalignment as direct evidence for their existence, eliminate singularities via bounded lattice compression, derive mass and light as resonant modes of a timeless field, and reproduce the Casimir force without virtual particles. All postulates are empirically anchored, mathematically consistent, and falsifiable. VEQF of ers a complete alternative to ΛCDM and General Relativity
Category: Astrophysics
[1] ai.viXra.org:2510.0010 [pdf] submitted on 2025-10-06 14:55:00
Authors: Kai Huang, Xiangqian Zhang
Comments: 4 Pages.
We propose a generative unified field theory extending Zhang’s framework (https://vixra.org/abs/2501.0132), wherereal space R3 is generated and driven by a constant imaginary space iR3 with a feedbackmechanism. This unifies classical spiral motion with quantum fluctuations, addressing un-resolved cosmological phenomena. Numerical simulations of cosmic acceleration, using Pan-theon+ supernova, Planck CMB, and DESI BAO data, yield comoving distances matchingobservations (ΩΛ ≈ 0.68, error < 0.1%), suggesting a novel dark energy mechanism. Themodel bridges microscopic (quantum wave-particle duality) and macroscopic (cosmologicalexpansion) scales simply and self-consistently. Due to space constraints, this paper focuseson cosmic acceleration; readers are referred to forthcoming works on wave-particle duality,dark matter, and other phenomena.
Category: Astrophysics