High-Quality Axion Models with the Anomalous U(1)X Gauge Symmetry
Abstract
We propose the generic high-quality axion models with anomalous U(1)X gauge symmetry and vector-like particles. We briefly review the gauge anomaly cancellations via the Green-Schwarz mechanism, study the breaking of the U(1)X gauge symmetry, as well as derive the Nambu-Goldstone boson, Peccei-Quinn (PQ) axion, and axion decay constant in general. The high-dimensional operators, which break the U(1)PQ global symmetry, have dimension eleven or higher due to the anomalous U(1)X gauge symmetry, and thus the axion quality problem is solved. In particular, unlike the high-quality axion models with anomaly free U(1) gauge symmetry, we only need to introduce two pairs of vector-like particles. To be concrete, we present three specific models with two pairs of vector-like particles. We show that gauge anomalies in all three models can be canceled via the Green-Schwarz mechanism. To achieve gauge coupling unification, we need to introduce additional vector-like particles only in Model I. We find that gauge coupling unification is achieved at the unification scale around 1016 GeV with a relative error of less than 1\%. Notably, gauge coupling unification in Model II is achieved naturally with the smallest relative error of 0.1\%.
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