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In a variety of inflation models the motion of the inflaton may trigger the production of some noninflaton particles during inflation, for example, via parametric resonance or a phase transition. Particle production during inflation leads to observables in the cosmological fluctuations, such as features in the primordial power spectrum and also non-Gaussianities. Here we focus on a prototype scenario with inflaton, , and isoinflaton, , fields interacting during inflation via the coupling g^2 (-₀) ^2^2. Since several previous investigations have hinted at the presence of localized ``glitches'' in the observed primordial power spectrum, which are inconsistent with the simplest power-law model, it is interesting to determine the extent to which such anomalies can be explained by this simple and microscopically well-motivated inflation model. Our prototype scenario predicts a bumplike feature in the primordial power spectrum, rather than an oscillatory ``ringing'' pattern as has previously been assumed. We discuss the observational constraints on such features using a variety of cosmological data sets. We find that bumps with amplitudes as large as O (10%) of the usual scale-invariant fluctuations from inflation, corresponding to g^20. 01, are allowed on scales relevant for cosmic microwave background experiments. Our results imply an upper limit on the coupling g^2 (for a given ₀) which is crucial for assessing the detectability of the non-Gaussianity produced by inflationary particle production. We also discuss more complicated features that result from superposing multiple instances of particle production. Finally, we point to a number of microscopic realizations of this scenario in string theory and supersymmetry and discuss the implications of our constraints for the popular brane/axion monodromy inflation models.
Barnaby et al. (Tue,) studied this question.
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