LAUSR

We present a low-frequency, broadband polarization study of the FRII radio galaxy PKS J0636-2036 (z = 0.0551), using the Murchison Widefield Array (MWA) from 70 to 230 MHz. The northern and southern hotspots (separated by ~14.5' on the sky) are resolved by the MWA (3'.3 resolution) and both are detected in linear polarization across the full frequency range. A combination of Faraday rotation measure (RM) synthesis and broadband polarization model-fitting are used to constrain the Faraday depolarization properties of the source. For the integrated southern hotspot emission, two RM component models are strongly favoured over a single RM component, and the best-fitting model requires Faraday dispersions of approximately 0.7 and 1.2 rad/m$^2$ (with a mean RM of ~50 rad/m$^2$). High resolution imaging at 5" with the ATCA shows significant sub-structure in the southern hotspot and highlights some of the limitations in the polarization modelling of the MWA data. Based on the observed depolarization, combined with extrapolations of gas density scaling-relations for group environments, we estimate magnetic field strengths in the intergalactic medium between ~0.04 and 0.5 {\mu}G. We also comment on future prospects of detecting more polarized sources at low frequencies.