Squeezed vacua and primordial features in effective theories of inflation at N2LO
| Autor: | Bianchi, Eugenio, Gamonal, Mauricio |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | A finite duration of cosmic inflation can result in features $\mathcal{P}_{\mathcal{R}}(k)=|\alpha_k-\beta_k\,\mathrm{e}^{\mathrm{i}\delta_k}|^2 \mathcal{P}_{\mathcal{R}}^{(0)}(k)$ in the primordial power spectrum that carry information about a quantum gravity phase before inflation. While the almost-scale-invariant power spectrum $\mathcal{P}_{\mathcal{R}}^{(0)}$ for the quasi-Bunch-Davies vacuum is fully determined by the inflationary background dynamics, the Bogoliubov coefficients $\alpha_k$ and $\beta_k$ for the squeezed vacuum depend on new physics beyond inflation and have been used to produce phenomenological templates for the features. In this paper, we consider a large class of effective theories of inflation and compute the relative phase $\delta_k$. While this phase vanishes in de Sitter space, here we show that it is fully determined by the inflationary background dynamics and we compute it up to the next-to-next-leading order (N2LO) in a Hubble-flow expansion. In particular, for the Starobinsky model of inflation we find that this relative phase can be expressed in terms of the scalar tilt $n_\mathrm{s}$ as $\delta_k=\frac{\pi}{2}(n_\mathrm{s}-1)-\frac{\pi}{4}(n_\mathrm{s}-1)^2\,\ln(k/k_*)$. The relative phase results in a negative shift and a running frequency that have been considered in the most studied phenomenological templates for primordial features, thus providing precise theoretical predictions for upcoming cosmological observations. Comment: 11 pages, 3 figures, 1 table |
| Databáze: | arXiv |
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