Large and small hierarchies from finite modular symmetries
Abstract
We study the moduli stabilization by the radiative corrections due to the moduli dependent vector-like masses invariant under the finite modular symmetry. The radiative stabilization mechanism can stabilize the modulus τ of the finite modular symmetry N (N ∈ N) at Im\,τ 1, where the shift symmetry τ τ+1 remains unbroken approximately. The shift symmetry can be considered as the residual ZN symmetry which realizes the Froggatt-Nielsen mechanism with the hierarchy parameter e- 2π Im\,τ/N 1. In this work, we study the stabilization of multiple moduli fields, so that various hierarchical values of the modular forms coexist in a model. For example, one modulus stabilized at Im\,τ1 3 is responsible for the hierarchical structure of the quarks and leptons in the Standard Model, and another modulus stabilized at Im\,τ2 15 can account for the flatness of the Re\,τ2 direction which may be identified as the QCD axion.
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