Diffuse filaments connect galaxy clusters to form the cosmic web. Detecting these filaments could yield information on the magnetic field strength, cosmic ray population and temperature of intercluster gas, yet, the faint and large-scale nature of these bridges makes direct detections very challenging. Using multiple independent all-sky radio and X-ray maps we stack pairs of luminous red galaxies as tracers for cluster pairs. For the first time, we detect an average surface brightness between the clusters from synchrotron (radio) and thermal (X-ray) emission with ≳5σ significance, on physical scales larger than observed to date (≥3Mpc). We obtain a synchrotron spectral index of α≃−1.0 and estimates of the average magnetic field strength of 30≤B≤60nG, derived from both equipartition and Inverse Compton arguments, implying a 5 to 15per cent degree of field regularity when compared with Faraday rotation measure estimates. While the X-ray detection is inline with predictions, the average radio signal comes out higher than predicted by cosmological simulations and dark matter annihilation and decay models. This discovery demonstrates that there are connective structures between mass concentrations that are significantly magnetised, and the presence of sufficient cosmic rays to produce detectable synchrotron radiation.
Discovery of magnetic fields along stacked cosmic filaments as revealed by radio and X-ray emission
Fornengo, N;Pinetti, E
2021-01-01
Abstract
Diffuse filaments connect galaxy clusters to form the cosmic web. Detecting these filaments could yield information on the magnetic field strength, cosmic ray population and temperature of intercluster gas, yet, the faint and large-scale nature of these bridges makes direct detections very challenging. Using multiple independent all-sky radio and X-ray maps we stack pairs of luminous red galaxies as tracers for cluster pairs. For the first time, we detect an average surface brightness between the clusters from synchrotron (radio) and thermal (X-ray) emission with ≳5σ significance, on physical scales larger than observed to date (≥3Mpc). We obtain a synchrotron spectral index of α≃−1.0 and estimates of the average magnetic field strength of 30≤B≤60nG, derived from both equipartition and Inverse Compton arguments, implying a 5 to 15per cent degree of field regularity when compared with Faraday rotation measure estimates. While the X-ray detection is inline with predictions, the average radio signal comes out higher than predicted by cosmological simulations and dark matter annihilation and decay models. This discovery demonstrates that there are connective structures between mass concentrations that are significantly magnetised, and the presence of sufficient cosmic rays to produce detectable synchrotron radiation.File | Dimensione | Formato | |
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2021 - Vernstrom et al. - Discovery of magnetic fields along stacked cosmic filaments as revealed by radio and X-ray emission.pdf
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