| viXra.org > Classical Physics > viXra:2509.0080 |
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| viXra.org > Classical Physics > viXra:2509.0080 |
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Classical Physics |
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Authors: Oliver Consa
We introduce a classical geometric model of the electron in which a primary circular Zitterbewegung motion with radius equal to the Compton radius is combined with a secondary helical component to generate a toroidal—solenoidal structure for the internal charge and current distributions. Within this geometry, weconstruct electromagnetic fields consistent with the local helical kinematics and evaluate the associated energy density, momentum flow, and current density over the toroidal volume. These quantities uniquely determine the minor radius r = R√(2α/π). The resulting magnetic moment reproduces μB and yields a correction factorg =√(1 + α/π). The analysis suggests that several intrinsic properties of the electron may admit a coherent interpretation in terms of an underlying toroidal electromagnetic geometry.
Comments: 18 Pages.
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[v1] 2025-09-13 21:12:55
[v2] 2025-11-23 17:32:47
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