G. E. Anderson, G. Schroeder, A. J. van der Horst, L. Rhodes, A. Rowlinson, A. Bahramian, S. I. Chastain, B. P. Gompertz, P. J. Hancock, T. Laskar, J. K. Leung and R. A. M. J. Wijers
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引用次数: 0
摘要
我们展示了短伽马射线暴(GRB)230217A的射电余辉,这是利用澳大利亚望远镜紧凑阵列(ATCA)和卡尔-G-扬斯基甚大阵列在伽马射线迅速发射后不到一天的时间里探测到的。在 Neil Gehrels Swift 天文台探测到 GRB 230217A 之后,ATCA 快速反应系统自动触发了对它的观测,并在爆发后仅 32 分钟就开始以 5.5 和 9 GHz 对该事件进行了长达 7 小时的观测。将 7 小时的观测分为三幅时间分段图像,使我们能够获得爆发后对数中心时间分别为 1、2.8 和 5.2 小时的射电探测结果,其中第一幅图像代表了迄今为止对任何 GRB 的最早射电探测结果。如果观测波段低于光谱峰值,并且不受同步加速器自吸收的影响,那么光曲线的下降与反向冲击发射是一致的。这使得 GRB 230217A 成为第五个在早期(爆发后小于 1 天)无线电探测到反向冲击的短 GRB(SGRB)。根据亮度温度的论证,我们利用早期的射电探测结果,在射电波段对GRB施加了最高的最小洛伦兹因子(1小时)约束。我们的结果表明,具有长积分和高灵敏度的快速射电跟踪观测对于探测SGRB的快速演化射电辐射和探测其反向冲击非常重要。
We present the radio afterglow of short gamma-ray burst (GRB) 230217A, which was detected less than 1 day after the gamma-ray prompt emission with the Australia Telescope Compact Array (ATCA) and the Karl G. Jansky Very Large Array. The ATCA rapid-response system automatically triggered an observation of GRB 230217A following its detection by the Neil Gehrels Swift Observatory and began observing the event just 32 minutes postburst at 5.5 and 9 GHz for 7 hr. Dividing the 7 hr observation into three time-binned images allowed us to obtain radio detections with logarithmic central times of 1, 2.8, and 5.2 hr postburst, the first of which represents the earliest radio detection of any GRB to date. The decline of the light curve is consistent with reverse shock emission if the observing bands are below the spectral peak and not affected by synchrotron self-absorption. This makes GRB 230217A the fifth short GRB (SGRB) with radio detections attributed to a reverse shock at early times (<1 day postburst). Following brightness temperature arguments, we have used our early radio detections to place the highest minimum Lorentz factor ( at ∼1 hr) constraints on a GRB in the radio band. Our results demonstrate the importance of rapid radio follow-up observations with long integrations and good sensitivity for detecting the fast-evolving radio emission from SGRBs and probing their reverse shocks.