Constraints on a Light Singlet Scalar from Combined Exotic Higgs Decays

Abstract

We investigate the phenomenology of the Standard Model extended by a real gauge-singlet scalar field, focusing on exotic Higgs decay channels. For a light scalar mass in the range \(0 < mφ < 40\) GeV, the Higgs boson can decay to both two and three scalar final states. We derive analytical expressions for these decay rates and impose a global constraint on the model parameters by requiring that their sum does not exceed the total Standard Model Higgs boson decay width. This requirement translates into a fourth-order inequality with respect to the singlet vacuum expectation value, \(vφ\). We demonstrate that satisfying this inequality imposes an upper bound of \( θ < 0.12 - 0.13\) across the entire mass range, providing a complementary constraint to existing direct search limits. Utilizing stronger independent constraints on the mixing (e.g., \( θ < 0.1\)), we then predict upper bounds on the individual exotic decay rates as a function of \(mφ\) as \(h → φ φ < 0.06\) MeV and \(h → φ φ φ < 5 × 10- 6\) MeV, respectively.