重复射电暴20180916B的微秒偏振测量

K. Nimmo, J. Hessels, A. Keimpema, A. Archibald, J. Cordes, R. Karuppusamy, F. Kirsten, Dongzi Li, B. Marcote, Z. Paragi
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引用次数: 9

摘要

快速射电暴(frb)表现出各种各样的光谱、时间和极化特性,这可以揭示它们在局部介质中的发射物理和传播效应的线索。在非常高的时间分辨率下研究快速射电暴具有挑战性,因为需要精确地限制色散测量、信噪比限制以及来自中间介质的散射。本文研究了欧洲VLBI网络在电压数据中检测到的重复FRB 20180916B的4个1.7 ghz爆发的高时间分辨率(低至1 μs)极化特性。在这些爆发中,我们观察到一系列跨越三个数量级的发射时间尺度,最短的分量宽度达到3-4 μs(低于3-4 μs我们受到散射的限制)。我们证明了所有四个爆发都是高度线性极化(≥80%),没有证据表明有显著的圆极化(≤15%),并且在爆发期间和爆发之间表现出恒定的偏振位角。然而,在短时间尺度上(≤100 μs),在爆发剖面上出现了微妙的(几度)极化位角变化。这些观测结果在快速射电暴模型中得到了最自然的解释,该模型的发射源是磁层,而不是在距离更远的相对论性激波中发射的模型。
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Microsecond polarimetry of the repeating FRB 20180916B
Fast radio bursts (FRBs) exhibit a wide variety of spectral, temporal and polarimetric properties, which can unveil clues into their emission physics and propagation effects in the local medium. FRBs are challenging to study at very high time resolution due to the precision needed to constrain the dispersion measure, signal-to-noise limitations, and also scattering from the intervening medium. Here we present the high-time-resolution (down to 1 μs) polarimetric properties of four 1.7-GHz bursts from the repeating FRB 20180916B, which were detected in voltage data during observations with the European VLBI Network. In these bursts we observe a range of emission timescales spanning three orders of magnitude, the shortest component width reaching 3-4 μs (below which we are limited by scattering). We demonstrate that all four bursts are highly linearly polarised (≥ 80%), show no evidence for significant circular polarisation (≤ 15%), and exhibit a constant polarisation position angle during and between bursts. On short timescales (≤ 100 μs), however, there appear to be subtle (few degree) polarisation position angle variations across the burst profiles. These observational results are most naturally explained in an FRB model where the emission is magnetospheric in origin, as opposed to models where the emission originates at larger distances in a relativistic shock.
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