| viXra.org > Nuclear and Atomic Physics > 2505 |
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| viXra.org > Nuclear and Atomic Physics > 2505 |
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[4] viXra:2505.0208 [pdf] replaced on 2025-06-06 01:16:19
Authors: Alfonso De Miguel bueno
Comments: 25 Pages.
We introduce a geometric-topological field model where nucleons, leptons, and bosons emerge as curvature configurations of two intersecting base fields. The system alternates between symmetric (bosonic) and antisymmetric (fermionic) phases, generating four curved subfields that reproduce the charge, mass, and spin structure of known particles. All physical observables are derived from a single velocity ratio, r = c'/c = 0.931, calibrated from the proton-Higgs resonance. This single parameter yields:proton mass, magnetic moment, and effective charge radius as curvature scales;neutron, electron, and neutrino masses via internal decompression ratios;the fine-structure constant α as a geometric inclination (α = arctan(X/Y));Planck's constant as topological curvature action;quark radii from curvature-mass relations matching experimental mass hierarchies;W and Z boson masses as curvature inversions in the symmetric state.All computed values match experimental data within sub-percent precision. Mass, charge, and spin arise directly from curvature compression, decompression, and internal phase shifts, without perturbative QCD, Higgs couplings, or hidden parameters. A global 3π phase lag governs the internal resonance, connecting electromagnetic, weak, and strong forces under a unified geometric mechanism.
Category: Nuclear and Atomic Physics
[3] viXra:2505.0198 [pdf] submitted on 2025-05-30 20:30:33
Authors: Ferrara Francesco
Comments: 8 Pages. In Italian
This paper proposes a classical electromagnetic model of the neutron based on two oppositely charged, massless particles rotating at the speed of light along concentric circular paths. The model derives the neutron’s rest mass and magnetic moment from purely electromagnetic considerations, using vector potential and natural units. The total angular momentum calculated is approximately four times the observed spin (ħ/2), which is interpreted as the projection of a larger classical angular momentum vector onto the axis of an external magnetic field. The model suggests a geometrically stable configuration and offers new insights into the neutron’s internal structure, compatible with key quantum phenomena.
Category: Nuclear and Atomic Physics
[2] viXra:2505.0079 [pdf] submitted on 2025-05-13 16:59:23
Authors: Gang Chen, Tianman Chen, Tianyi Chen
Comments: 4 Pages. 1 Figure.
The hydrogen hyperfine transition or the hydrogen 21-cm line is critically important in astronomic and cosmic observations and in quantum mechanics. In our previous papers, we calculated out and determined the atomic unit of time (tau) to be 2.41888432658653278×10-17 s. With this value of tau, we calculated out and determined the precise frequencies of some atomic transitions of some atoms such as 1H, 27Al+, 40Ca, 87Sr, 115ln+, 171Yb, 171Yb+, 199Hg and 199Hg+ and the nuclear transition of 229Th*. In this paper, we calculate out and determine the absolutely precise frequency of the hydrogen 21-cm line to be 1420405751.76690576 Hz in comparison to the most precise measured value 1420405751.768(2) Hz or 1420405751.767(4) Hz.
Category: Nuclear and Atomic Physics
[1] viXra:2505.0032 [pdf] submitted on 2025-05-05 21:49:09
Authors: Proloy Kumar Nath, Purnata Shovita Nath
Comments: 20 Pages.
By obtaining pin, like a tiny string, as a further intrinsic quantum property with the general nature of an intrinsic linear momentum of an observable quantum state besides spin as an intrinsic quantum property with the general nature of an intrinsic angular momentum of an observable quantum state, we would find the subatomic particles contain spin, pin, magnetic moment and electric moment, the four intrinsic quantum properties of their own. As such, considering the four intrinsic quantum properties of subatomic particles and remembering the Maxwell’s realization that the laws governing electricity and magnetism are identical, we would be able to obtain theoretically the isolated electric monopoles as free quantized electric charges carried by some particles, as well as, the isolated magnetic monopoles as free quantized magnetic charges carried by some specific particles in quantum mechanics and particle physics. As such, we would obtain the Gauss’s law and the Coulomb’s law in magnetostatics analogous to the same laws in electrostatics, and also magnetic charge density and magnetic current density coun-terpart of electric charge density and electric current density with respect to free quantized magnetic charge. We would then get the modified Maxwell’s equations as duality symmetry and the modified Lorentz force law considering both electric and magnetic charges, where the electric and magnetic parameters are being invariant under the duality transformation exchanges in all respect.
Category: Nuclear and Atomic Physics
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