A steadily declining dispersion measure for the repeating fast radio burst FRB 20220529A: Evidence for an FRB engine embedded in an expanding supernova remnant

Abstract

We present the discovery and subsequent 3.2 year monitoring campaign of the repeating fast radio burst FRB 20220529A with CHIME/FRB. We observe a gradual dispersion measure (DM) decline of -0.8810.001~pc~cm-3~year-1 (-1.2350.001~pc~cm-3~year-1 in the rest frame), implying a ≥3.50.2% decrease of the total electron column in the source environment, and we see scattering timescale variations over weeks to years. We observe a short-lived excursion in which the DM rises by 1~pc~cm-3, immediately preceding a transient 2000~rad~m-2 Faraday rotation measure (RM) increase previously reported for this source, before returning to its gradual DM decline. We identify a local line-of-sight magnetic field around FRB 20220529A during this DM/RM excursion of 3.4 0.2~mG, corresponding to one of the most strongly magnetized FRB environments. We measure a decrease in the linear polarization fraction of FRB 20220529A bursts with decreasing frequency that we attribute to depolarization from multi-path propagation in the source environment. We also place a 5σ upper limit on the spectral luminosity of an associated persistent radio source of ≤ 5×1028~erg~s-1~Hz-1 at 1.5 GHz. These observations are consistent with FRB 20220529A originating from a young ( years to centuries old) expanding supernova remnant, with short-lived DM and RM variability arising from interactions with the supernova remnant or with a binary companion.