Cosmological Collider Signatures of Higgs-\(R^2\) Inflation

We study the cosmological collider signatures in the Higgs-\(R^2\) inflation model. We consider two distinct types of signals: one originating from the inflaton coupling to Standard Model fermions and gauge bosons, and another arising from the isocurvature mode interaction with the inflaton. In the former case, we determine that the signal magnitude is likely too small for detection by upcoming probes, primarily due to suppression by both the Planck scale and slow-roll parameters. However, we provide a detailed computation of the signal which could be potentially applicable to various Higgs inflation variants. For the isocurvature mode signals, we observe that the associated couplings remain unsuppressed when the isocurvature mode is relatively light or comparable to the inflationary scale. In this case, we study the Higgs-\(R^2\) inflation parameter space that corresponds to the quasi-single-field inflation regime and find that the signal strength could be as large as \(|f_{\rm NL}| > 1\), making Higgs-\(R^2\) inflation a viable candidate for observation by future 21-cm surveys.