Publication: Helix Light Vortex Theory -Magnetic Dipole Moments from Spiral Geometry in the HLV-THEORY
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Marcel Krüger
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Marcel Krüger born 18.07.84
Abstract
Where does a particle's magnetism come from?
While the Standard Model explains the magnetic dipole moment through the Dirac equation and quantum radiative corrections, this paper presents a deeper, geometric origin derived from the Helix Light Vortex (HLV) theory.
It demonstrates that a particle’s magnetic properties are not intrinsic, but emerge from the topology of the vacuum itself — as localized, circulating spiral field currents. The paper derives the g-factor from first principles based on spiral field geometry and quantized resonance modes in a discrete dodecahedral vacuum lattice.
This approach not only recovers the known quantum predictions in the low-energy limit but also makes falsifiable predictions for deviations near strong gravitational fields or topological defects in the vacuum.
Ultimately, this work replaces an abstract quantum property with a physical, testable mechanism, offering a new fundamental understanding of particle magnetism — grounded in emergent geometry, not imposed symmetry.
https://orcid.org/0009-0002-5709-9729
Description
Where does a particle's magnetism come from?
While the Standard Model explains the magnetic dipole moment through the Dirac equation and quantum radiative corrections, this paper presents a deeper, geometric origin derived from the Helix Light Vortex (HLV) theory.
It demonstrates that a particle’s magnetic properties are not intrinsic, but emerge from the topology of the vacuum itself — as localized, circulating spiral field currents. The paper derives the g-factor from first principles based on spiral field geometry and quantized resonance modes in a discrete dodecahedral vacuum lattice.
This approach not only recovers the known quantum predictions in the low-energy limit but also makes falsifiable predictions for deviations near strong gravitational fields or topological defects in the vacuum.
Ultimately, this work replaces an abstract quantum property with a physical, testable mechanism, offering a new fundamental understanding of particle magnetism — grounded in emergent geometry, not imposed symmetry.
https://orcid.org/0009-0002-5709-9729
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© 2025 Marcel Krüger — CC BY 4.0 https://creativecommons.org/licenses/by/4.0/