Abstract
We point out that a model with scalar fields with a large nonminimal coupling to the Ricci scalar, such as Higgs inflation, can be regarded as a nonlinear sigma model (NLSM). With the inclusion of not only the scalar fields but also the conformal mode of the metric, our definition of the target space of the NLSM is invariant under the frame transformation. We show that the σ-meson that linearizes this NLSM to be a linear sigma model (LSM) corresponds to the scalaron, the degree of freedom associated to the R2 term in the Jordan frame. We demonstrate that quantum corrections inevitably induce this σ-meson in the large-N limit, thus providing a frame independent picture for the emergence of the scalaron. The resultant LSM only involves renormalizable interactions and hence its perturbative unitarity holds up to the Planck scale unless it hits a Landau pole, which is in agreement with the renormalizability of quadratic gravity.
Highlights
Inflation caused by the Standard Model Higgs stands out as an attractive candidate model among many others because of its minimality
We show that the σ-meson that linearizes this nonlinear sigma model (NLSM) to be a linear sigma model (LSM) corresponds to the scalaron, the degree of freedom associated to the R2 term in the Jordan frame
Consequences of this operator with a large value of ξ have been studied in detail in the literature, including the tree-level unitarity violation at the energy scale MP /ξ MP [27,28,29, 75,76,77] and its implication during and after inflation [78,79,80,81]
Summary
We show that Higgs inflation can be interpreted as a NLSM. Our primary goal of this section is to provide a frame independent definition of the target space. For this purpose, we include the scalar fields and the conformal mode of the metric in the definition of the target space. We note here that we do not consider any quantum effects .
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