Delta N formalism: non-linear evolution of scalar and tensor perturbations during inflation
| Quand ? |
Le 17/09/2025, de 01:00 à 02:00 |
|---|---|
| Où ? | Salle M7.101 |
| S'adresser à | Marc Geiller, Hugo Roussille |
| Participants |
Danilo ARTIGAS |
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Mercredi 17 septembre
Title: Delta N formalism: non-linear evolution of scalar and tensor perturbations during inflation
Danilo ARTIGAS (Department of Physics, Kyoto University, Japan)
Abstract: Linear-perturbation theory has proven to be an extremely powerful tool to compare inflationary models with observational data. Recently, the newcoming high-precision observations call for predictions beyond linear perturbations. Such effects are known to be relevant for example in the production of primordial black holes or scalar-induced gravitational waves. The delta N formalism proposes to capture some of these non-linearities by describing the universe as a set of homogeneous patches evolving independently. After reviewing its formulation, I will apply it to the case of a single scalar field following a slow-roll evolution, briefly interrupted by a phase of ultra-slow roll where the potential is nearly flat. Taking care of the correlation of the patches, I will show how to obtain correlation functions of scalar perturbations. As a final note, I will briefly show how this procedure can also be applied to describe primordial gravitational waves.