时延宇宙学：利用强引力透镜测量哈勃常数和其他宇宙学参数。

IF 9.1 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Space Science Reviews Pub Date : 2024-01-01 Epub Date: 2024-06-17 DOI:10.1007/s11214-024-01079-w

S Birrer, M Millon, D Sluse, A J Shajib, F Courbin, S Erickson, L V E Koopmans, S H Suyu, T Treu

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引用次数: 0

摘要

同一光源的多重透镜图像在光子到达时会出现相对的时间延迟，这是由于光子经过的路径长度差异和重力势能不同造成的。这种效应可用于测量绝对距离和哈勃常数（H 0），被称为时间延迟宇宙学。这种方法不受本地距离阶梯和早期宇宙物理学的影响，可以精确地测量哈勃常数。通过即将建成的天文台，时间延迟宇宙学可以对 H 0 进行 1% 的精确测量，并对目前报道的 "哈勃张力 "做出决定性的解释。这篇手稿详细介绍了过去几十年来在时间延迟宇宙学方面发展起来的一般方法，讨论了最近的进展和结果，最重要的是为下一个十年提供了基础和展望，以便随着样本量的增加和观测技术的改进，提供更精确的测量结果。

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Time-Delay Cosmography: Measuring the Hubble Constant and Other Cosmological Parameters with Strong Gravitational Lensing.

Multiply lensed images of a same source experience a relative time delay in the arrival of photons due to the path length difference and the different gravitational potentials the photons travel through. This effect can be used to measure absolute distances and the Hubble constant ( $H_{0}$ ) and is known as time-delay cosmography. The method is independent of the local distance ladder and early-universe physics and provides a precise and competitive measurement of $H_{0}$ . With upcoming observatories, time-delay cosmography can provide a 1% precision measurement of $H_{0}$ and can decisively shed light on the current reported 'Hubble tension'. This manuscript details the general methodology developed over the past decades in time-delay cosmography, discusses recent advances and results, and, foremost, provides a foundation and outlook for the next decade in providing accurate and ever more precise measurements with increased sample size and improved observational techniques.

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来源期刊

Space Science Reviews 地学天文-天文与天体物理

CiteScore

19.70

自引率

3.90%

发文量

审稿时长

4-8 weeks

期刊介绍： Space Science Reviews (SSRv) stands as an international journal dedicated to scientific space research, offering a contemporary synthesis across various branches of space exploration. Emphasizing scientific outcomes and instruments, SSRv spans astrophysics, physics of planetary systems, solar physics, and the physics of magnetospheres & interplanetary matter. Beyond Topical Collections and invited Review Articles, Space Science Reviews welcomes unsolicited Review Articles and Special Communications. The latter encompass papers related to a prior topical volume/collection, report-type papers, or timely contributions addressing a robust combination of space science and technology. These papers succinctly summarize both the science and technology aspects of instruments or missions in a single publication.