Working Groups

  • Milky Way

    We study the magnetic field in our own Galaxy, the Milky Way, by using pulsars and looking at diffuse polarized emission. Understanding the structure of the local magnetic field folds into other science work as the Milky Way provides a foreground along essentially all lines of sight.

    Read More
  • Nearby Galaxies

    We study magnetic fields in our neighbour galaxies and have selected a sample of galaxies of different morphological types, inclinations, masses and star-formation rates. This also helps us to better understand the magnetic field of our own Galaxy, which cannot be seen from the outside. We investigate how magnetic fields, along with star formation, gravity, interactions between galaxies and other dynamical processes, play a role in the evolution of galaxies – and vice versa, how cosmic evolution shapes galactic magnetic fields.

    Read More
  • Radio Galaxies

    These gigantic radio sources are powered by monstrous supermassive black holes (SMBH). The jets from these SMBH pump energy back into the local environment, but the sheer extent of the radio emission means that they extend way beyond the host galaxy. Studying the magnetic fields in these objects allows us to learn about the magnetic field external to galaxies.

    Read More
  • Intergalactic Filaments

    Studying magnetic fields on these largest of scales allows us to probe the origins of cosmic magnetism in the Universe. However, the technical challenges of detecting magnetic fields in these very faint, very sparse regions mean this is not an easy task - one that only the next generation of radio telescopes have the capability of tackling.

    Read More
  • RM Grid Task Force

    The goal of the MKSP RM Grid Task force is to use the combined expertise and resources of the MKSP Working Groups to produce a catalog of Faraday rotation measures of discrete radio sources from the LOFAR Two-Metre Sky Survey (LoTSS) data. This catalog will then be used by the various MKSP working groups to address the particular science goals of the individual working groups.

    Read More
  • The Goods North Project

    The Goods North project aims to deliver the most sensitive low-frequency polarization survey of this controversial field. These observations will be complemented by data at other radio frequencies and in other parts of the electromagnetic spectrum already available in literature, to address a number of scientific aspects covering different environments, from our Galaxy, to other galaxies, up to the cosmic web.

    Read More