Frequency-dependent polarization of repeating fast radio bursts-implications for their origin.
Yi FengDi LiYuan-Pei YangYong-Kun ZhangWeiwei ZhuBing ZhangWenbin LuPei WangShi DaiRyan S LynchJu-Mei YaoJinchen JiangJiarui NiuDejiang ZhouHeng XuChenchen MiaoChenghui NiuLingqi MengLei QianChao-Wei TsaiBojun WangMengyao XueYouling YueMao YuanSongbo ZhangLei ZhangPublished in: Science (New York, N.Y.) (2022)
The polarization of fast radio bursts (FRBs), which are bright astronomical transient phenomena, contains information about their environments. Using wide-band observations with two telescopes, we report polarization measurements of five repeating FRBs and find a trend of lower polarization at lower frequencies. This behavior is modeled as multipath scattering, characterized by a single parameter, σ RM , the rotation measure (RM) scatter. Sources with higher σ RM have higher RM magnitude and scattering time scales. The two sources with the highest σ RM , FRB 20121102A and FRB 20190520B, are associated with compact persistent radio sources. These properties indicate a complex environment near the repeating FRBs, such as a supernova remnant or a pulsar wind nebula, consistent with their having arisen from young stellar populations.