Mathilde Jauzac
Dept. Physics, Univ. Durham (Durham, Royaume-Uni)
Galaxy clusters, the most massive astrophysical objects observable, are ideal cosmic laboratories to study dark matter and dark energy. Indeed, the number and mass distribution of galaxy clusters as a function of cosmic time is sensitive to the properties of dark energy, a repulsive force or modifications of the laws of gravity which could explain the acceleration of the expansion of the Universe. Furthermore, they are composed of ~85% of dark matter, making them the largest dark matter reservoirs in the Universe. Residing at the vertices of this Cosmic Web, clusters grow by steady accretion of matter from the surroundings, as well as by discrete mergers with nearby groups and clusters. Supported by simulations, this scenario regarding the total mass content and distribution in filaments and clusters remains largely untested.
While combining gravitational lensing regimes to map the total mass with multi-wavelength imaging and spectroscopy of clusters and their galaxies, one can thus study the dynamical scenarios in place within these clusters, trace the substructures engaged in these processes, and constrain evolution and formation theories. During this talk, I will present an overview of the astrophysical searches for dark matter my group is undertaking and will discuss some of the results we have obtained so far.
Amphithéâtre Henri Mineur, Institut d'Astrophysique de Paris