Varying linear polarisation in the dust-free gamma-ray burst 210610B

J.F. Agui Fernandez, A. de Ugarte Postigo, C. Thone, S. Kobayashi, A. Rossi, K. Toma, M. Jelínek, D. A. Kann, S. Covino, K. Wiersema, D. Hartmann, P. Jakobsson, A. Martin-Carrillo, A. Melandri, M. De Pasquale, G. Pugliese, S. Savaglio, R. Starling, J. Strobl, M. Della Valle, S. de Wet, T. Zafar
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Abstract

Long gamma-ray bursts (GRBs) are produced by the collapse of some very massive stars, that emit ultra-relativistic jets. When the jets collide with the interstellar medium they decelerate and generate the so-called afterglow emission, which has been observed to be polarised. We study the polarimetric evolution of the GRB\,210610B afterglow, at $z=1.1341$. This allows us to evaluate the role of geometric and/or magnetic mechanisms in the GRB afterglow polarisation. We observed GRB\,210610B using imaging polarimetry with CAFOS on the 2.2 m Calar Alto Telescope and FORS2 on the $4 m Very Large Telescope. Complementary optical spectroscopy was obtained with OSIRIS on the 10.4 m Gran Telescopio Canarias. We studied the GRB light-curve from X-rays to the optical bands and the Spectral Energy Distribution (SED). This allowed us to strongly constrain the line-of-sight extinction. Finally, we studied the GRB host galaxy using optical to NIR data to fit the SED and derive its integrated properties. GRB\,210610B had a bright afterglow with a negligible line-of-sight extinction. Polarimetry was obtained at three epochs: during an early plateau phase, at the time when the light curve breaks, and after the light curve steepened. We observe an initial polarisation of $ that goes to zero at the time of the break, and it then again increases to $ with a change in the position angle of $54 deg. The spectrum shows features with very low equivalent widths. This indicate a small amount of material in the line of sight within the host. The lack of dust and the low amount of material in the line of sight to GRB\,210610B allowed us to study the intrinsic polarisation of the GRB optical afterglow. The GRB polarisation signals are consistent with ordered magnetic fields in refreshed shock or/and hydrodynamics-scale turbulent fields in the forward shock.
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无尘伽马射线暴 210610B 中的线性偏振变化
长伽马射线暴(GRBs)是由一些质量非常大的恒星坍缩产生的,这些恒星会发出超相对论射流。当喷流与星际介质碰撞时,它们会减速并产生所谓的余辉发射,据观测,余辉发射是极化的。我们研究了$z=1.1341$的GRB/,210610B余辉的偏振演变。这使我们能够评估几何和/或磁机制在GRB余辉极化中的作用。我们使用 2.2 米卡拉阿尔托望远镜上的 CAFOS 和 4 米甚大望远镜上的 FORS2 进行成像偏振测量,观测了 GRB(,210610B)。利用 10.4 米加那利大望远镜上的 OSIRIS 获得了补充光学光谱。我们研究了从 X 射线到光学波段的 GRB 光曲线以及光谱能量分布(SED)。这使我们能够有力地制约视线消光。最后,我们利用从光学到近红外的数据对GRB宿主星系进行了研究,以拟合其SED并得出其综合特性。GRB/,210610B有一个明亮的余辉,其视线消光可以忽略不计。偏振测量是在三个时间段获得的:早期的高原阶段、光曲线断裂时以及光曲线变陡之后。我们观测到的初始极化值为 $,在光曲线断裂时极化值为零,然后随着位置角 54 度的变化,极化值再次增加到 $。光谱显示出等效宽度很低的特征。这表明在宿主内部的视线范围内有少量物质。由于GRB\,210610B的视线内没有尘埃,物质含量也很低,因此我们可以研究GRB光学余辉的本征偏振。GRB的偏振信号与刷新冲击中的有序磁场或/和前向冲击中的流体力学尺度湍流场是一致的。
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