Fast radio bursts

IF 27.8 1区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
E. Petroff, J. W. T. Hessels, D. R. Lorimer
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引用次数: 180

Abstract

The discovery of radio pulsars over a half century ago was a seminal moment in astronomy. It demonstrated the existence of neutron stars, gave a powerful observational tool to study them, and has allowed us to probe strong gravity, dense matter, and the interstellar medium. More recently, pulsar surveys have led to the serendipitous discovery of fast radio bursts (FRBs). While FRBs appear similar to the individual pulses from pulsars, their large dispersive delays suggest that they originate from far outside the Milky Way and hence are many orders-of-magnitude more luminous. While most FRBs appear to be one-off, perhaps cataclysmic events, two sources are now known to repeat and thus clearly have a longer lived central engine. Beyond understanding how they are created, there is also the prospect of using FRBs—as with pulsars—to probe the extremes of the Universe as well as the otherwise invisible intervening medium. Such studies will be aided by the high-implied all-sky event rate: there is a detectable FRB roughly once every minute occurring somewhere on the sky. The fact that less than a hundred FRB sources have been discovered in the last decade is largely due to the small fields-of-view of current radio telescopes. A new generation of wide-field instruments is now coming online, however, and these will be capable of detecting multiple FRBs per day. We are thus on the brink of further breakthroughs in the short-duration radio transient phase space, which will be critical for differentiating between the many proposed theories for the origin of FRBs. In this review, we give an observational and theoretical introduction at a level that is accessible to astronomers entering the field.

Abstract Image

快速射电暴
半个多世纪前,射电脉冲星的发现是天文学上一个开创性的时刻。它证明了中子星的存在,为研究中子星提供了一个强大的观测工具,并使我们能够探测强引力、致密物质和星际介质。最近,脉冲星调查导致了快速射电暴(frb)的偶然发现。虽然快速射电暴看起来与脉冲星的单个脉冲相似,但它们巨大的色散延迟表明它们来自银河系之外很远的地方,因此亮度要高许多个数量级。虽然大多数快速射电暴似乎是一次性的,也许是灾难性的事件,但现在已知有两个来源是重复的,因此显然有一个更长的中心引擎。除了了解它们是如何产生的,还有一个前景是利用快速射电暴——就像脉冲星一样——来探测宇宙的极端,以及其他不可见的干预介质。这样的研究将得到高隐含的全天空事件率的帮助:在天空的某个地方大约每分钟发生一次可探测到的快速射电暴。在过去的十年里,发现的快速射电暴源不到100个,这在很大程度上是由于当前射电望远镜的视野太小。然而,新一代的宽视场仪器正在上线,这些仪器将能够每天探测到多个快速射电暴。因此,我们即将在短时无线电瞬态相位空间方面取得进一步突破,这将是区分许多关于快速射电暴起源的理论的关键。在这篇综述中,我们给出了一个观测和理论的介绍,在一个水平上是天文学家进入该领域。
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来源期刊
The Astronomy and Astrophysics Review
The Astronomy and Astrophysics Review 地学天文-天文与天体物理
CiteScore
45.00
自引率
0.80%
发文量
7
期刊介绍: The Astronomy and Astrophysics Review is a journal that covers all areas of astronomy and astrophysics. It includes subjects related to other fields such as laboratory or particle physics, cosmic ray physics, studies in the solar system, astrobiology, instrumentation, and computational and statistical methods with specific astronomical applications. The frequency of review articles depends on the level of activity in different areas. The journal focuses on publishing review articles that are scientifically rigorous and easily comprehensible. These articles serve as a valuable resource for scientists, students, researchers, and lecturers who want to explore new or unfamiliar fields. The journal is abstracted and indexed in various databases including the Astrophysics Data System (ADS), BFI List, CNKI, CNPIEC, Current Contents/Physical, Chemical and Earth Sciences, Dimensions, EBSCO Academic Search, EI Compendex, Japanese Science and Technology, and more.
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