Helix-Light-Vortex-Theory (H.L.V.)
- Publicada
- Servidor
- Zenodo
- DOI
- 10.5281/zenodo.16206664
Recent experimental hints of a "Toponium" bound state at CERN challenge our current understanding of the top quark. In my new paper, "Toponium Resonance as a Geometric Instability in the HLV Framework," I present an explanation from the perspective of the Helix-Light-Vortex (HLV) theory.
The work reinterprets Toponium not as a classical particle, but as a short-lived geometric resonance within a modulated spacetime lattice, whose extreme instability is explained by a "phase-lock" mechanism. Crucially, this geometric framework leads to a clear, testable prediction: a direct inverse correlation between the state's mass and its lifetime (M \propto \tau^{-1}).
This work offers a new geometric perspective on the dynamics of high-mass quarks and invites scientific discussion.