Inspiraling streams of enriched gas observed around a massive galaxy 11 billion years ago
Author
Zhang, ShiwuCai, Zheng
Xu, Dandan
Shimakawa, Rhythm
Arrigoni Battaia, Fabrizio
Prochaska, Jason Xavier
Cen, Renyue
Zheng, Zheng
![cc](/themes/OR//images/orcid_icon.png)
Wu, Yunjing
Li, Qiong
![cc](/themes/OR//images/orcid_icon.png)
Dou, Liming
![cc](/themes/OR//images/orcid_icon.png)
Wu, Jianfeng
Zabludoff, Ann
Fan, Xiaohui
Ai, Yanli
Golden-Marx, Emmet Gabriel
Li, Miao
Lu, Youjun
Ma, Xiangcheng
Wang, Sen
Wang, Ran
Yuan, Feng
Affiliation
Steward Observatory, University of ArizonaIssue Date
2023-05-04
Metadata
Show full item recordCitation
Shiwu Zhang et al. ,Inspiraling streams of enriched gas observed around a massive galaxy 11 billion years ago.Science380,494-498(2023).DOI:10.1126/science.abj9192Journal
Science (New York, N.Y.)Rights
© 2023 the authors, some rights reserved; exclusive licensee American Association for the Advancement ofScience. No claim to original US government works.Collection Information
This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at repository@u.library.arizona.edu.Abstract
A tidal disruption event (TDE) occurs when a supermassive black hole rips apart a passing star. Part of the stellar material falls toward the black hole, forming an accretion disk that in some cases launches a relativistic jet. We performed optical polarimetry observations of a TDE, AT 2020mot. We find a peak linear polarization degree of 25 ± 4%, consistent with highly polarized synchrotron radiation, as is typically observed from relativistic jets. However, our radio observations, taken up to 8 months after the optical peak, do not detect the corresponding radio emission expected from a relativistic jet. We suggest that the linearly polarized optical emission instead arises from shocks that occur during accretion disk formation, as the stream of stellar material collides with itself.Note
Immediate accessEISSN
1095-9203PubMed ID
37141364Version
Final accepted manuscriptae974a485f413a2113503eed53cd6c53
10.1126/science.abj9192
Scopus Count
Collections
Related articles
- A cosmic stream of atomic carbon gas connected to a massive radio galaxy at redshift 3.8.
- Authors: Emonts BHC, Lehnert MD, Yoon I, Mandelker N, Villar-Martín M, Miley GK, De Breuck C, Pérez-Torres MA, Hatch NA, Guillard P
- Issue date: 2023 Mar 31
- The discovery of a galaxy-wide superwind from a young massive galaxy at redshift z approximately 3.
- Authors: Wilman RJ, Gerssen J, Bower RG, Morris SL, Bacon R, de Zeeuw PT, Davies RL
- Issue date: 2005 Jul 14
- A 100-kiloparsec wind feeding the circumgalactic medium of a massive compact galaxy.
- Authors: Rupke DSN, Coil A, Geach JE, Tremonti C, Diamond-Stanic AM, George ER, Hickox RC, Kepley AA, Leung G, Moustakas J, Rudnick G, Sell PH
- Issue date: 2019 Oct
- A cold, massive, rotating disk galaxy 1.5 billion years after the Big Bang.
- Authors: Neeleman M, Prochaska JX, Kanekar N, Rafelski M
- Issue date: 2020 May
- The rapid assembly of an elliptical galaxy of 400 billion solar masses at a redshift of 2.3.
- Authors: Fu H, Cooray A, Feruglio C, Ivison RJ, Riechers DA, Gurwell M, Bussmann RS, Harris AI, Altieri B, Aussel H, Baker AJ, Bock J, Boylan-Kolchin M, Bridge C, Calanog JA, Casey CM, Cava A, Chapman SC, Clements DL, Conley A, Cox P, Farrah D, Frayer D, Hopwood R, Jia J, Magdis G, Marsden G, Martínez-Navajas P, Negrello M, Neri R, Oliver SJ, Omont A, Page MJ, Pérez-Fournon I, Schulz B, Scott D, Smith A, Vaccari M, Valtchanov I, Vieira JD, Viero M, Wang L, Wardlow JL, Zemcov M
- Issue date: 2013 Jun 20