Helix-Light-Vortex-Theory (H.L.V.)
- Publicada
- Servidor
- Zenodo
- DOI
- 10.5281/zenodo.16206391
As the sPHENIX experiment at RHIC delivers new high-precision data on the Quark-Gluon Plasma (QGP), my new paper offers an alternative interpretation from the Helix-Light-Vortex (HLV) theory. It models the QGP not as a "soup" of deconfined quarks and gluons, but as a fundamental geometric phase transition of a discrete, dodecahedral spacetime lattice itself.
Crucially, this geometric framework leads to three unique and falsifiable predictions that differ from the Standard Model:
* Specific anisotropies in the final-state particle flow, reflecting the underlying lattice symmetry.
* The formation of anomalous exotic resonances with predictable properties, such as a mass range of 2-6 GeV and a lifespan of ~1-3 ps.
* A non-Gaussian signature in event-by-event fluctuations, measurable via kurtosis (κ).
This work provides a clear, testable path to explore the geometric nature of spacetime using the new data from sPHENIX. I invite you to read the full paper and welcome all discussion and feedback.