A search for persistent radio sources toward repeating fast radio bursts discovered by CHIME/FRB

Adaeze L. Ibik, Maria R. Drout, Bryan M. Gaensler, Paul Scholz, Navin Sridhar, Ben Margalit, Tracy E. Clarke, Shriharsh P. Tendulkar, Daniele Michilli, Tarraneh Eftekhari, Mohit Bhardwaj, Sarah Burke-Spolaor, Shami Chatterjee, Amanda M. Cook, Jason W. T. Hessels, Franz Kirsten, Ronniy C. Joseph, Victoria M. Kaspi, Mattias Lazda, Kiyoshi W. Masui, Kenzie Nimmo, Ayush Pandhi, Aaron B. Pearlman, Ziggy Pleunis, Masoud Rafiei-Ravandi, Kaitlyn Shin, Kendrick M. Smith
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Abstract

The identification of persistent radio sources (PRSs) coincident with two repeating fast radio bursts (FRBs) supports FRB theories requiring a compact central engine. However, deep non-detections in other cases highlight the diversity of repeating FRBs and their local environments. Here, we perform a systematic search for radio sources towards 37 CHIME/FRB repeaters using their arcminute localizations and a combination of archival surveys and targeted observations. Through multi-wavelength analysis of individual radio sources, we identify two (20181030A-S1 and 20190417A-S1) for which we disfavor an origin of either star formation or an active galactic nucleus in their host galaxies and thus consider them candidate PRSs. We do not find any associated PRSs for the majority of the repeating FRBs in our sample. For 8 FRB fields with Very Large Array imaging, we provide deep limits on the presence of PRSs that are 2--4 orders of magnitude fainter than the PRS associated with FRB\,20121102A. Using Very Large Array Sky Survey imaging of all 37 fields, we constrain the rate of luminous ($\gtrsim$10$^{40}$ erg s$^{-1}$) PRSs associated with repeating FRBs to be low. Within the context of FRB-PRS models, we find that 20181030A-S1 and 20190417A-S1 can be reasonably explained within the context of magnetar, hypernebulae, gamma-ray burst afterglow, or supernova ejecta models -- although we note that both sources follow the radio luminosity versus rotation measure relationship predicted in the nebula model framework. Future observations will be required to both further characterize and confirm the association of these PRS candidates with the FRBs.
向 CHIME/FRB 发现的重复快速射电暴寻找持续射电源
与两个重复快速射电暴(FRBs)同时出现的持续射电源(PRSs)的识别支持了需要一个紧凑的中心引擎的FRB理论。然而,在其他情况下的深度未探测则凸显了重复快速射电暴及其局部环境的多样性。在这里,我们利用37个CHIME/FRB中继器的arminute定位,结合档案巡天和目标观测,对它们的射电源进行了系统搜索。通过对单个射电源的多波长分析,我们确定了两个射电源(20181030A-S1 和 20190417A-S1),我们不认为它们的宿主星系中存在恒星形成或活动星系核,因此认为它们是候选的 PRS。在我们的样本中,大部分重复FRB都没有发现相关的PRS。对于8个具有甚大阵成像的FRB场,我们提供了比与FRB(20121102A)相关的PRS更暗2--4个数量级的PRS存在的深度限制。利用所有37个场的超大阵列巡天成像,我们限制了与重复FRB相关的高亮度($\gtrsim$10$^{40}$ erg s$^{-1}$)PRS的发生率很低。在FRB-PRS模型的背景下,我们发现20181030A-S1和20190417A-S1可以在磁星、超星云、伽马射线暴余辉或超新星喷出物模型的背景下得到合理的解释--尽管我们注意到这两个来源都遵循了星云模型框架中预测的射电光度与旋转测量的关系。未来的观测将需要进一步描述和证实这些候选PRS与FRB的联系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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