Spontaneous Lepton Flavor Condensation Via F\(_3\) × SO(10) Symmetry in Dense, Ultra Dense and Condensed Hydrogen Systems

Sindre A. Zeiner-Gundersen

doi:10.56557/japsi/2025/v17i19380

Spontaneous Lepton Flavor Condensation Via F\(_3\) × SO(10) Symmetry in Dense, Ultra Dense and Condensed Hydrogen Systems

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Published: 2025-05-30

DOI: 10.56557/japsi/2025/v17i19380

Page: 9-15

Issue: 2025 - Volume 17 [Issue 1]

Sindre A. Zeiner-Gundersen *

University of Iceland, Reykjavik, Iceland.

*Author to whom correspondence should be addressed.

Abstract

We propose a novel discrete family symmetry F₃ = Z₃ × Z₂ embedded within an SO(10) Grand Unified Theory (GUT), inspired by anomalies in dense hydrogen (DH). Spontaneous symmetry breaking yields composite bosonic lepton states ( Φ bosons), exhibiting flavorviolating decays and potentially catalyzing low-energy nuclear reactions with suppressed neutron yields. This work constructs the field-theoretic framework, details F₃transformations, and analyzes decay channels, fusion enhancement, and detection methods. It offers a testable extension of the Standard Model (SM) with implications for flavor physics and practical fusion energy.

Keywords: Ultra-dense hydrogen, lepton flavor condensation, F3×SO(10) symmetry, low-energy nuclear reactions, Φ bosons, metallic hydrogen, fusion catalysis, muon emission, condensed hydrogen systems, flavor physics

How to Cite

Zeiner-Gundersen, Sindre A. 2025. “Spontaneous Lepton Flavor Condensation Via F\(_3\) × SO(10) Symmetry in Dense, Ultra Dense and Condensed Hydrogen Systems”. Journal of Applied Physical Science International 17 (1):9-15. https://doi.org/10.56557/japsi/2025/v17i19380.

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