Quark and Lepton Masses, Baryon Asymmetry, and Neutrino Mass from a Supersymmetric Preon Model

Abstract

The flavor problem and the baryon asymmetry of the universe (BAU) are addressed simultaneously within a supersymmetric preon model. Standard Model fermions are three-body composites of preons confined at Lambdacr ~ 1014 GeV by a Maxwell-Chern-Simons interaction and a metacolor gauge symmetry SU(3)mc. Gauge anomaly cancellation requires one spectator field chi and no other new fermions. Using four systematic numerical methods validated against the hydrogen atom, we reproduce the observed ratio me/mu = 0.22 at metacolor string tension sigma*mc/theta2 = 2.11, and predict md > mu with md/mu ~ 2.3 (observed value of 2.0) from the Pauli principle applied to the psi02 spin-color wavefunction. The neutrino is naturally massless at tree level by the same Pauli-principle argument; the spectator chi provides a Type I seesaw giving mnu ~ LambdaEW2/Lambdacr ~ 0.1 eV. The BAU is generated at Lambdacr via the Callan-Harvey anomaly inflow mechanism: integrating out the massive charged preons induces a topological Chern-Simons term whose coefficient is fixed by the fermion/boson condensation asymmetry epsilon from intrinsic SUSY breaking. Matching the observed eta ~ 8.7x10-10 gives epsilon ~ 0.022, consistent with a one-loop origin. R-parity is derived dynamically from the composite structure, making the lightest superpartner absolutely stable.

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