从 TGSS 第 1 版备选数据中发现巨射电源:射电、光学和红外特性

Netai Bhukta, Souvik Manik, Sabyasachi Pal, Sushanta K. Mondal
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引用次数: 0

摘要

巨射电源(GRSs)是宇宙中已知的最大的天体物理天体,其规模已达到兆长(≥0.7 Mpc)。与正常大小的射电星系相比,GRS要稀少得多。然而,它们的巨大尺寸形成的原因还在争论之中。我们从 150 MHz 频率的 TIFR 巨型元波射电望远镜巡天备选数据版本 1 中系统地搜索了 GRS。我们从这项研究中新发现了 34 个巨大天体。我们还研究了这些地球同步卫星的多波长特性(射电、光学和红外)。我们使用似然比法从泛星际红外巡天探测器(光学)和宽视场红外巡天探测器(中红外)数据中识别出了高度可靠的多波长对应GRS。我们利用光学和中红外数据,根据中心黑洞的吸积模式对GRS进行了分类。我们还讨论了所有来源的主要特征参数(红移分布、角和投影线性大小、总集成射电通量密度、光谱指数和射电功率)。我们还展示了射电演化轨迹和 GRS 在 P-D 图中的位置。利用射电-光学光度图,我们确定了 Fanaroff-Riley 分类中的 GRS。在我们的样本中,只有两个GRG靠近星系团的中心。
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Discovery of Giant Radio Sources from TGSS Alternative Data Release 1: Radio, Optical, and Infrared Properties
Giant radio sources (GRSs) are the single largest astrophysical objects known in the Universe that have grown to megaparsec scales (≥0.7 Mpc). GRSs are much rarer compared with normal-sized radio galaxies. Still, the reason for the formation of their gigantic sizes is under debate. We systematically search for GRSs from the TIFR Giant Metrewave Radio Telescope Sky Survey Alternative Data Release 1 at 150 MHz. We have newly identified 34 GRSs from this study. We have also studied the multiwavelength properties (radio, optical, and infrared) of these GRSs. We have used the likelihood ratio method to identify highly reliable multiwavelength counterparts of GRSs from Pan-STARRS (optical) and Wide-field Infrared Survey Explorer (mid-IR) data. We have classified GRSs based on their accretion mode of the central black holes using optical and mid-IR data. For all sources, we also discuss the principal characteristic parameters (redshift distribution, angular and projected linear size, total integrated radio flux density, spectral index, and radio power). We show the radio evolution track and the location of the GRSs in the PD diagram. Using a radio–optical luminosity diagram, we identify GRSs in the Fanaroff–Riley classification. Only two GRGs in our sample reside close to the centers of galaxy clusters.
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