Helix-Light-Vortex-Theory (H.L.V.)
- Posted
- Server
- Zenodo
- DOI
- 10.5281/zenodo.16276734
The recent discovery of a single, unpaired "lonely spinon" in a 1D quantum spin chain challenges our understanding of spin fractionalization. My new paper, "Lonely Spinons and HLV Resonance Modes," offers a geometric interpretation from the Helix-Light-Vortex (HLV) theory.
I propose that the lonely spinon is not an abstract quasiparticle, but a real, localized, helical resonance of the fundamental Φ-field, trapped as a topological defect within a single "Space-Bit" of the spacetime lattice. The paper models spin fractionalization as a topological transition where a coupled spin pair decouples, leaving this unpaired chiral mode behind.
This framework provides a realist ontology for spin itself and has predictive implications for quantum magnetism and the development of stable, topological qubits. Spin is geometry in motion.