TL;DR
This paper demonstrates how multipartite entanglement reveals the emergence of Standard Model symmetries, distinguishing fermions and bosons, and clarifying their entanglement classes and roles.
Contribution
It introduces a novel entanglement-based framework to understand the emergence of Standard Model symmetries and particle classifications.
Findings
Fermions are classified by tripartite maximally entangled states.
Leptons appear as asymptotic states in three spatial dimensions.
Higgs boson is identified as a scalar mode with nonzero vacuum expectation value.
Abstract
We show how, using multipartite entanglement, the symmetries among bosons and fermions of the Standard Model of particle physics emerge. Fermions belong to tripartite maximally entangled classes starting with basic chiral right and left states. Quarks and leptons belong to different classes, with only leptons appearing as asymptotic states in three space dimensions. The Higgs boson is the scalar mode with a nonvanishing vacuum expectation value, other bosons are as usual linked to symmetry generators.
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.