IEA PBH#2

Europe/Paris
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Description

Previous meeting:
IEA PBH#1

Please register to attend

Zoom connection details (for both days):

https://u-paris.zoom.us/j/83402728013?pwd=dGdOMEpMZjA3eVFmWGlYdFUvSlFTQT09

Meeting ID: 834 0272 8013
Passcode: 202484

 

Zoom recordings:

First session 09/11

Second session 09/11

First Session 10/11

Second Session 10/11

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Registration to IEA PBH#2
Participants
  • Alireza Talebian
  • Amin Nassiri
  • Aritra De
  • Borna Salehian
  • Chris Pattison
  • Daniel G. Figueroa
  • Danilo Artigas
  • David Wands
  • Eemeli Tomberg
  • Emmanuel Frion
  • Fatemeh Eghbalpoor
  • Guilherme Brando de Oliveira
  • Hassan Firouzjahi
  • Hooshyar Assadullahi
  • Hossein Mos'hafi
  • Jacopo Fumagalli
  • Joe Jackson
  • Julien Grain
  • Kazuya Koyama
  • Kenta Ando
  • Laura Iacconi
  • Lucas Pinol
  • Lukas Witkowski
  • Mahdiyar Noorbala
  • Matteo Fasiello
  • Nahid Ahmadi
  • Niloufar Feyz
  • Rafid Mahbub
  • Sadra Jazayeri
  • Sami Raatikainen
  • Seyed Ali Hosseini Mansoori
  • Sina Hooshangi
  • Syksy Räsänen
  • Sébastien Renaux-Petel
  • Tays Miranda de Andrade
  • Thomas Colas
  • Vincent Vennin
  • Yuichiro Tada
  • Zahra Ahmadi
  • Zahra Molaee
    • 14:00 14:45
      Alireza Talebian: Stochastic effects of electromagnetic fields in the early universe 45m

      We extend the stochastic formalism to the setup of the models containing a U(1) gauge field such as anisotropic inflation and Primordial magnetogenesis during inflation. In this talk, we show that the stochastic noises of the electromagnetic perturbations have significant effects on the dynamics of the system. These effects can not be neglected even in the leading order in contrast with the stochastic noises of the scalar fields.

    • 14:45 15:30
      Aritra De & Rafid Mahbub: Numerically modelling stochastic inflation 45m

      We present a complete numerical treatment of inflationary dynamics under the influence of stochastic corrections from sub-Hubble modes. We discuss how to exactly model the stochastic noise terms arising from the sub-Hubble quantum modes that give rise to the coarse-grained inflaton dynamics in the form of stochastic differential equations. The stochastic differential equations are solved event-by-event on a discrete time grid. We then compute the power spectrum of curvature perturbations that can be compared with the power spectrum computed in the traditional fashion using the Mukhanov-Sasaki equation by canonically quantizing the inflaton fluctuations. Our numerical procedure helps us to easily extend the formalism to ultra slow-roll inflation and study the possibility of primordial black hole formation.

    • 15:30 16:00
      Coffee / Tea break 30m
    • 16:00 16:45
      Amin Nassiri-Rad: Stochastic non-attractor inflation 45m

      We extend the formalism of stochastic inflation to the setup of non-attractor inflation with a sound speed cs. We obtain the Langevin equations for the superhorizon perturbations and calculate the stochastic corrections to curvature perturbation power spectrum. It is shown that the fractional stochastic corrections in mean number of e-folds and power spectrum are at the order of power spectrum. We also calculate the boundary crossing and the first hitting probabilities in a hypothetical dS space with two boundaries in field space. Furthermore, the stochastic corrections in power spectrum in a setup akin to eternal inflation with large diffusion term are calculated.

    • 16:45 17:30
      Emmanuel Frion: Stochastic Collapse 45m

      In this talk, I will present the consequences of applying the stochastic formalism to cosmological models described by a scalar field with an exponential potential. In particular we show that quantum field fluctuations perturb the equation of state on large scales which can lead to a quantum instability of the classical collapse solution below the Planck scale in the case of a pressureless collapse.

    • 10:00 10:45
      Yuichiro Tada: StocDeltaN: numerical approach to inflation in combination of the stochastic and delta N formalism 45m

      The stochastic approach to inflation enables us to treat the superhorizon perturbations in a non-perturbative way.
      Though it deals only with the inflatons’ perturbations in itself, fluctuations in the duration of inflation
      can be connected with the observable curvature perturbations from the viewpoint of the delta N formalism.
      In 2015, Vennin and Starobinsky revealed the adjoint Fokker-Planck equation for the probability density function of
      such time fluctuations.
      We with Renaux-Petel are now developing a C++ package to automatically solve this adjoint FP eq. and 
      enable a full stochastic analysis for arbitrary models of inflation.
      I’ll introduce this ongoing project with several examples.

    • 10:45 11:30
      Sebastien Renaux-Petel: Multifield stochastic inflation in phase space: a manifestly covariant theory and its first principle derivation. 45m

      In this talk based on arXiv:2008.07497 (from Lucas Pinol, Yuichiro Tada and myself), after an introduction to stochastic inflation, I explain the difficulties and the solution to formulate this theory in a manner that respects covariance under field redefinitions. I do so in the general framework of multifield inflation with a curved field space, taking into account the coupling to gravity as well as the full phase space in the Hamiltonian language. Moreover, I show how to rigorously derive the corresponding Langevin equations using tools of nonequilibrium quantum field theory.

    • 11:30 12:00
      Coffee / Tea break 30m
    • 12:00 12:45
      Laura Iacconi: Small-Scale Tests of Inflation 45m

      The detection and characterisation of primordial gravitational waves produced during inflation can be an excellent test for the particle content of the very early universe. We consider an inflationary realisation whose tensor spectrum is sourced already at linear order, with a sufficient production of primordial gravitational waves to make the signal detectable at interferometer scales. We then focus on the tensor non-Gaussianities that ensue from the same configuration. On small-scales, anisotropies induced in the tensor power spectrum by long-short modes coupling become the key handle on (squeezed) primordial non-Gaussianities. We identify the parameter space generating percent level anisotropies at scales soon to be probed by SKA and LISA.