A4 Modular Flavour Model of Quark Mass Hierarchies close to the Fixed Point τ = ω
Abstract
We investigate the possibility to describe the quark mass hierarchies as well as the CKM quark mixing matrix without fine-tuning in a quark flavour model with modular A4 symmetry. The quark mass hierarchies are considered in the vicinity of the fixed point τ = ω (i\,2π/3) (the left cusp of the fundamental domain of the modular group), τ being the VEV of the modulus. The model involves modular forms of level 3 and weights 6, 4 and 2, and contains eight constants, only two of which, gu and gd, can be a source of CP violation in addition to the VEV of the modulus, τ = ω + ε, (ε)* ≠ ε, |ε| 1. We find that in the case of real (CP-conserving) gu and gd and common τ (ε) in the down-quark and up-quark sectors, the down-type quark mass hierarchies can be reproduced without fine tuning with |ε| 0.03, all other constants being of O(1), and correspond approximately to 1 : |ε| : |ε|2. The up-type quark mass hierarchies can be achieved with the same |ε| 0.03 but allowing gu O(10) and correspond to 1 : |ε|/|gu| : |ε|2/|gu|2. In this setting, we discuss the CKM quark mixing and CP violation.
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