伽马射线源的射电形态:双叶射电源

Vaidehi S. Paliya, D. J. Saikia, Alberto Domínguez and C. S. Stalin
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引用次数: 0

摘要

银河系外的γ射线天空主要是与观测者视线对齐的相对论喷流,即炽星。费米大面积望远镜(LAT)也探测到了它们的一些错位对应物,如射电星系,尽管数量很少(50 ∼ 50),这表明喷流视角在探测喷流的γ射线发射中起着至关重要的作用。这些发射γ射线的错位活动星系核(AGN)为我们提供了一个独特的机会,让我们可以从不同于常见的耀斑的角度来了解高能发射的产生机制。带着这个目标,我们系统地研究了费米-LAT探测到的γ射线源目录第四版数据中存在的γ射线发射源的射电形态,以识别错位AGN。通过利用甚大阵列巡天、低频阵列双米巡天、20 厘米射电天空微弱图像和快速 ASKAP 连续巡天所提供的高分辨率和高灵敏度的 MHz 和 GHz 频率观测数据,我们在这里提供了一份包含 149 个探测到的γ-射线错位 AGN 的星表,从而使这类已知天体的数量增加了大约三倍。我们的样本包括各种射电形态,如边缘变暗和边缘变亮、混合体、广角尾、弯曲喷流和巨型。由于γ射线发射被认为对喷流视角高度敏感,这样一个扩大的γ射线探测到的错位射电源样本将使我们能够探索相对论喷流和射电裂片中高能发射的起源,并从总体上研究AGN的统一。
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Radio Morphology of Gamma-Ray Sources: Double-lobed Radio Sources
The extragalactic γ-ray sky is dominated by relativistic jets aligned to the observer’s line of sight, i.e., blazars. A few of their misaligned counterparts, e.g., radio galaxies, are also detected with the Fermi-Large Area Telescope (LAT), albeit in a small number (∼50), indicating the crucial role played by the jet viewing angle in detecting γ-ray emission from jets. These γ-ray emitting misaligned active galactic nuclei (AGN) provide us with a unique opportunity to understand the high-energy emission production mechanisms from a different viewpoint than the more common blazars. With this goal in mind, we have systematically studied the radio morphology of γ-ray emitting sources present in the fourth data release of the fourth catalog of Fermi-LAT detected γ-ray sources to identify misaligned AGN. By utilizing the high-resolution and sensitive MHz and GHz frequency observations delivered by the Very Large Array Sky Survey, Low-Frequency Array Two-metre Sky Survey, Faint Images of the Radio Sky at Twenty Centimeters, and Rapid ASKAP Continuum Survey, here we present a catalog of 149 γ-ray detected misaligned AGN, thus approximately tripling the number of known objects of this class. Our sample includes a variety of radio morphologies, e.g., edge-darkened and edge-brightened, hybrids, wide-angle-tailed, bent jets, and giants. Since the γ-ray emission is thought to be highly sensitive to the jet viewing angle, such an enlarged sample of γ-ray detected misaligned radio sources will permit us to explore the origin of high-energy emission in relativistic jets and radio lobes and study AGN unification, in general.
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