A numerical approach to stochastic inflation and primordial black holes

Primordial black holes are a dark matter candidate, which may originate from strong perturbations created during inflation. These perturbations can be studied using the formalism of stochastic inflation. I present a numerical approach to this problem, where the stochastic dynamics is solved by generating a large number of random realizations. This makes it possible to go beyond analytical approximations and take into account additional effects such as backreaction between the perturbations and the background. I show that in an example model with an inflection point potential and ultra-slow-roll inflation, compatible with CMB measurements, stochastic effects produce a highly non-Gaussian tail for the perturbations, which changes the predictions for black hole production significantly.

Dates: 

Tuesday, 26 January, 2021 - 14:00 to 15:00

Localisation / Location: 

APC

Salle / Local: 

https://u-paris.zoom.us/j/87016236807?pwd=SkJNU0Q1d1lYU1BxZzlvZXpKblkzQT09
  • Séminaire

Nom/Prénom // Last name/First name: 

Eemeli Tomberg

Affiliation: 

NICPB

Equipe(s) organisatrice(s) / Organizing team(s): 

  • Théorie

Pays / Country: 

Estonia