Unraveling the Imprints of Fluctuation-dynamo on the Intracluster Medium with the SKA

Abstract

Studying the morphology and coherence scale of the magnetic fields in synchrotron emitting halos of galaxy clusters through detection of polarized synchrotron emission is important in order to understand how they distribute relativistic plasma, their contribution to pressure balance, and how they may affect gas content in galaxies and set up initial conditions during non-linear collapse to eventually form galaxies in the intracluster medium (ICM). Using synthetic maps over broad-bandwidths, generated from high resolution magnetohydrodynamic simulations of fluctuation dynamo, we study the efficacy of SKA-Low and Mid in Array Assembly AA4 in our quest for detecting polarized synchrotron emission from the intracluster medium (ICM). Fluctuation dynamo action in the ICM are expected to generate ubiquitous filamentary and sheet-like magnetic field structures. The associated synchrotron emission projected in the plane of the sky appear highly filamentary that can span hundreds of kiloparsecs. Such filaments can be robustly identified and quantified through high angular resolution ( 1), sensitive observations (about 0.25--1\,μJy\,beam-1) above about 3\,GHz, a niche for the SKA-Mid in Band\,5a. Statistical properties of polarized emission and morphological measures, such as, Minkowski functionals, can then be used to infer the turbulence driving scales in the ICM with deep observations of galaxy clusters using SKA-Mid. Availability of a Band\,4 receiver covering 2--4\,GHz would be a major boost in studying the polarization properties of the ICM.