Spectropolarimetric variability in the repeating fast radio burst source FRB20180301A

As the sample size of repeating fast radio bursts (FRBs) has grown, an increasing diversity of phenomenology has emerged. Through long-term multi-epoch studies of repeating FRBs, it is possible to assess which phenomena are common to the population and which are unique to individual sources. We present a multi-epoch monitoring campaign of the repeating FRB source 20180301A using the ultra-wideband low (UWL) receiver observations with Murriyang, the Parkes 64-m radio telescope. The observations covered a wide frequency band spanning approximately 0.7-4GHz, and yielded the detection of 46 bursts. None of the repeat bursts displayed radio emission in the range of 1.8-4 GHz, while the burst emission peaked at 1.1 GHz. We discover evidence for secular trends in the burst dispersion measure, indicating a decline at a rate of . We also found significant variation in the Faraday rotation measure of the bursts across the follow-up period, including evidence of a sign reversal. While a majority of bursts did not exhibit any polarization, those that did show a decrease in the linear polarization fraction as a function of frequency, consistent with spectral depolarization due to scattering, as observed in other repeating FRB sources. Surprisingly, no significant variation in the polarization position angles was found, which is in contrast with earlier measurements reported for the FRB source. We measure the burst rate and sub-pulse drift rate variation and compare them with the previous results. These novel observations, along with the extreme polarization properties observed in other repeating FRBs, suggest that a sub-sample of FRB progenitors possess highly dynamic magneto-ionic environments.

Automated summary

As the sample size of repeating fast radio bursts (FRBs) has increased, we have gained a better understanding of the diversity of these phenomena. Through long-term monitoring, we have found that different sources of repeating FRBs have both common and unique characteristics. In this study, we observed the repeating FRB source 20180301A using the ultra-wideband low (UWL) receiver and detected 46 bursts. We found that none of the repeat bursts displayed radio emission in the range of 1.8-4 GHz, while the burst emission peak occurred at 1.1 GHz. We also discovered evidence for trends in burst dispersion measure and significant variation in Faraday rotation measure, as well as polarization properties consistent with other repeating FRB sources.