Abstract
The effective field theory (EFT) of inflation provides an essential picture to explore the effects of the unknown high energy physics in the single scalar field inflation models. For a generic EFT of inflation, possible high energy corrections to simple slow-roll inflation can modify both the propagating speed and dispersion relations of the cosmological scalar and tensor perturbations. With the arrival of the era of precision cosmology, it is expected that these high energy corrections become more important and have to be taken into account in the analysis with future precise observational data. In this paper we study the observational predictions of the EFT of inflation by using the third-order uniform asymptotic approximation method. We calculate explicitly the primordial power spectra, spectral indices, running of the spectral indices for both scalar and tensor perturbations, and the ratio between tensor and scalar spectra. These expressions are all written in terms of the Hubble flow parameters and the flow of four new slow-roll parameters and expanded up to the next-to-leading order in the slow-roll expansions so they represent the most accurate results obtained so far in the literature. The flow of the four new slow-roll parameters, which arise from the four new operators introduced in the action of the EFT of inflation, can affect the primordial perturbation spectra at the leading-order and the corresponding spectral indices at the next-to-leading order.
Highlights
Inflation is the leading paradigm for the hot Big Bang origin of the Universe [1,2,3].The most remarkable features of the inflationary scenario is that it provides an elegant mechanism for generating structures in the Universe and the spectrum of cosmic microwave background (CMB) anisotropies, which are fully consistent with the cosmological observations with a spectacular precision [5,6,7,8]
There are a lot of approaches to realize inflation that originate from very different background physics
We note here that this method was first applied to inflationary cosmology in the framework of general relativity (GR) in [43,44,45], and we have developed it, so it can be applied to more general cases and high accuracy [32,36]
Summary
Inflation is the leading paradigm for the hot Big Bang origin of the Universe [1,2,3] (see Ref. [4] for an updated review). This allows us to characterize all the possible high energy corrections to simple slow-roll inflation and their impacts on the primordial perturbation spectra Such considerations have attracted a lot of attention and the observational effects of high-order operators on inflationary perturbation spectra have been extensively studied both in the framework of the EFT of inflation and the inflation in HL theory [16,17,18,19] (see [20] for an updated review). To match with the accuracy of the current and forthcoming observations, as pointed out in [27,28,29,30], consideration of the contributions from the time variation of the sound speed and the modified dispersion relation are highly demanded To achieve this goal, one has to calculate the primordial perturbation spectra up to the secondorder in the slow-roll expansions.
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