English

Flavored QCD axion and Modular invariance

High Energy Physics - Phenomenology 2026-03-10 v3 High Energy Physics - Experiment High Energy Physics - Theory

Abstract

A four-dimensional effective model with GSM×SL(2,Z)×U(1)XG_{\rm SM}\times SL(2,\mathbb{Z}) \times U(1)_X is proposed in string-derived supergravity framework, where GSMG_{\rm SM} is the Standard Model (SM) gauge group and U(1)XU(1)_X is gauged. We show SL(2,Z)SL(2,\mathbb{Z})- and U(1)XU(1)_X-mixed anomalies should vanish. Anomalies induced by K{\"a}hler transformations match those from gaugino chiral rotations. When SM fermions transform nontrivially under SL(2,Z)SL(2,\mathbb{Z}), and with vanishing gaugino contributions, the anomaly-free conditions are powerful enough to determine the quark and lepton flavor structures, set scales for U(1)XU(1)_X breaking, and ensure the strong CP phase remains unmodified. While the Green-Schwarz coefficient δXGS\delta^{\rm GS}_X is generically non-zero, vanishing U(1)XU(1)_X anomalies cause gauge boson decoupling and δXGS0\delta^{\rm GS}_X\rightarrow 0, yielding a massless global U(1)XU(1)_X without a Nambu-Goldstone mode. We show that the modulus vacuum expectation value stabilizes near τi\langle\tau\rangle \approx i, where exact SL(2,Z)SL(2,\mathbb{Z}) (TT-duality) is spontaneously broken, removing residual modular symmetry. The framework predicts seesaw-generated neutrino masses and flavored axion properties, with all Yukawa coefficients constrained to unit-magnitude complex numbers. Our model reproduces current quark and lepton data, predicts an axion mass ma0.9×102m_a\approx0.9\times10^{-2} eV and photon coupling gaγγ1.7×1013GeV1|g_{a\gamma\gamma}|\approx1.7\times10^{-13}\,{\rm GeV}^{-1}, and unlike the ordinary case, suppresses flavor-violating axion couplings to s,ds,d quarks and μ,e\mu,e leptons to O(λ4)\mathcal{O}(\lambda^4) (with λ\lambda the Cabibbo angle). It also yields normal neutrino mass hierarchy consistent with oscillation data, 0νββ0\nu\beta\beta-decay rate, and cosmological and astrophysical measurements.

Keywords

Cite

@article{arxiv.2511.06355,
  title  = {Flavored QCD axion and Modular invariance},
  author = {Yang Hwan Ahn},
  journal= {arXiv preprint arXiv:2511.06355},
  year   = {2026}
}

Comments

43 page, 6 figures. Corrected typos and improved discussions

R2 v1 2026-07-01T07:28:16.203Z