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arxiv: 2409.02458 · v1 · pith:OMEMEXIH · submitted 2024-09-04 · hep-th · hep-ph

Flavor symmetries from modular subgroups in magnetized compactifications

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classification hep-th hep-ph
keywords modulitimesconstraintflavormathbbmodulargammagroups
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We study the flavor structures of zero-modes, which are originated from the modular symmetry on $T^2_1\times T^2_2$ and its orbifold with magnetic fluxes. We introduce the constraint on the moduli parameters by $\tau_2=N\tau_1$, where $\tau_i$ denotes the complex structure moduli on $T^2_i$. Such a constraint can be derived from the moduli stabilization. The modular symmetry of $T^2_1 \times T^2_2$ is $SL(2,\mathbb{Z})_{\tau_1} \times SL(2,\mathbb{Z})_{\tau_2} \subset Sp(4,\mathbb{Z})$ and it is broken to $\Gamma_0(N) \times \Gamma^0(N)$ by the moduli constraint. The wave functions represent their covering groups. We obtain various flavor groups in these models.

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  1. Massive modes on magnetized blow-up manifold of $T^2/\mathbb{Z}_N$

    hep-th 2026-04 unverdicted novelty 5.0

    Blow-up of magnetized T²/Z_N preserves total magnetic flux, total curvature, and effective flux on connecting lines, while the number of localized modes at each singularity increases by one per mass level increment.