New perspectives on cosmological shocks and magnetic fields in galaxy clusters

by Christoph Pfrommer (Toronto)

Thursday 30 Sept 2010, 10:15 → 11:15 Europe/Stockholm

FA31

By re-assessing two different kind of radio observations, I will show that this enables new observational windows on galaxy cluster physics. In the first part, I will talk about the spectacular head-tail radio galaxy NGC 1265, located in the Perseus galaxy cluster. I will present a new model that self-consistently explains its morphology and spectrum, and accounts for the interaction of this radio galaxy with the galaxy cluster. For the first time, we are able to probe the detailed flow structure of an accretion shock onto a galaxy cluster. In the second part, I address the puzzle of strongly polarized radio ridges at spiral galaxies in the Virgo cluster. Using 3D magnetohydrodynamical simulations, I show that these orbiting galaxies necessarily sweep up enough magnetic field, initially woven in the cluster plasma, to build up a dynamically important magnetic sheath - an effect well known in space physics and extensively observed around the Earth, Mars, Venus, and comets. This magnetic draping layer is then lit up with cosmic ray electrons from the galaxies’ stars, generating coherent polarized emission at the galaxies’ leading edges and naturally explaining the observations. This immediately presents a new technique for probing local orientations and characteristic length scales of cluster magnetic fields. Its first application gives a startling result that might point to interesting plasma physics and hints at the thermal evolution of galaxy clusters.