Cosmologie

The quest for B-mode polarization of the Cosmic Microwave Background is among the main challenges in Observational Cosmology. Measurement of B-mode polarization in the CMB will be clear evidence of the presence of primordial gravitational waves which are theoretically expected to be produced during inflation about 10-35 seconds after the Planck epoch.

During the last decade, cosmology has entered a precision era, leading to the prevalence of the standard cosmological model, ΛCDM. Nevertheless, the main ingredient of this model, dark energy, remains mysterious while dominating the energy budget of the Universe. Its comprehension is the current Graal of this domain.

Dark energy studies with the Vera Rubin Observatory LSST & Euclid - Developing a combined cosmic shear analysis with Bayesian neural networks.

Models predict that clusters of galaxies assemble from mergers of galaxy groups at z>1.5-2. The detections and observation of clusters and proto-clusters at these epochs put strong constraints on galaxy formation and quenching, and on the cosmological model.
 

Observations of the Cosmic Microwave Background fluctuations provide a unique view onto the early Universe and the fundamental laws of physics at the most extreme energies (typically twelve orders of magnitude above what could be achieved at the Large Hadron Collider). The successful European-led space mission Planck provided the ultimate characterization of the CMB fluctuations in total intensity and a robust detection of some of the polarization signal.

L’étude de l’Univers froid nous permet de remonter aux origines, que ce soit celles de notre système solaire avec l’observation des embryons d’étoiles ou celles de l’Univers avec la mesure de la polarisation du rayonnement fossile. Ces instruments d’observations dans les domaines sub-millimétrique et millimétrique nécessitent l’utilisation de détecteurs supraconducteurs refroidis jusqu’à 100mK. Ceci rend ces expériences particulièrement complexes à mettre en oeuvre, en particulier au niveau système.

The Role of Polarization in 21 cm Radio Surveys

Martin Bucher (bucher@apc.univ-paris7.fr) and Francois Boulanger (francois.boulanger@ens.fr)

A great effort is currently underway to map out the radio sky at lower frequencies ($\ltorder 1$

GHz) in order to acquire a three-dimensional map of the universe extending out to large redshifts.