星际天体的新天文学前沿。

IF 3.5 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Astrobiology Pub Date : 2022-12-01 DOI:10.1089/ast.2021.0189
Amir Siraj, Abraham Loeb
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引用次数: 2

摘要

即将开始的Vera C. Rubin天文台的时空遗产调查(LSST)将大大提高星际物体(iso)的发现率。奥陌陌和鲍里索夫是太阳系中最早确认的两颗ISOs,尽管第一颗星际流星被发现得更早。我们探索了Oumuamua和Borisov探测所暗示的抛射星子的有趣质量预算,并探索了isoos在太阳附近的预期丰度作为大小的函数。具体来说,我们发现恒星质量的很大一部分必须用于产生iso,而iso的数量超过了奥尔特云中的太阳系物体。我们考虑了iso与地球、月球和中子星碰撞的特征,以及在恒星掩星调查中区分iso与太阳系物体的可能性,我们表明这些方法在观测上是可行的。我们介绍了一个动态各向异性的测试,它能够确定iso从其母星的典型弹射速度。最后,我们预测了一群新的动态不同的iso,它们起源于银河系晕中的恒星。新成立的伽利略计划(Galileo project)的两个分支之一试图通过执行新的搜索和设计后续观测来更多地了解像Oumuamua这样的iso的性质。
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The New Astronomical Frontier of Interstellar Objects.

The upcoming commencement of the Vera C. Rubin Observatory's Legacy Survey of Space and Time (LSST) will greatly enhance the discovery rate of interstellar objects (ISOs). 'Oumuamua and Borisov were the first two ISOs confirmed in the Solar System, although the first interstellar meteor was detected earlier. We explore the intriguing mass budget of ejected planetesimals implied by the detections of 'Oumuamua and Borisov and explore the expected abundance of ISOs as a function of size in the solar neighborhood. Specifically, we find that a significant fraction of stellar mass must go toward producing ISOs and that ISOs outnumber Solar System objects in the Oort cloud. We consider signatures of ISOs colliding with Earth, the Moon, and neutron stars, as well as the possibility of differentiating ISOs from Solar System objects in stellar occultation surveys, and we show that these methods are observationally feasible. We introduce a test for dynamical anisotropy that is capable of determining the typical ejection speed of ISOs from their parent stars. Finally, we predict a new population of dynamically distinct ISOs originating from stars in the Galactic halo. One of the two branches of the newly established Galileo Project1 seeks to learn more about the nature of ISOs like 'Oumuamua by performing new searches and designing follow-up observations.

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来源期刊
Astrobiology
Astrobiology 生物-地球科学综合
CiteScore
7.70
自引率
11.90%
发文量
100
审稿时长
3 months
期刊介绍: Astrobiology is the most-cited peer-reviewed journal dedicated to the understanding of life''s origin, evolution, and distribution in the universe, with a focus on new findings and discoveries from interplanetary exploration and laboratory research. Astrobiology coverage includes: Astrophysics; Astropaleontology; Astroplanets; Bioastronomy; Cosmochemistry; Ecogenomics; Exobiology; Extremophiles; Geomicrobiology; Gravitational biology; Life detection technology; Meteoritics; Planetary geoscience; Planetary protection; Prebiotic chemistry; Space exploration technology; Terraforming
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