| Literature DB >> 31558577 |
J Xavier Prochaska1,2, Jean-Pierre Macquart3, Matthew McQuinn4, Sunil Simha5, Ryan M Shannon6, Cherie K Day6,7, Lachlan Marnoch7,8, Stuart Ryder8, Adam Deller6, Keith W Bannister7, Shivani Bhandari7, Rongmon Bordoloi9, John Bunton7, Hyerin Cho10, Chris Flynn6, Elizabeth K Mahony7, Chris Phillips7, Hao Qiu11, Nicolas Tejos12.
Abstract
Present-day galaxies are surrounded by cool and enriched halo gas extending for hundreds of kiloparsecs. This halo gas is thought to be the dominant reservoir of material available to fuel future star formation, but direct constraints on its mass and physical properties have been difficult to obtain. We report the detection of a fast radio burst (FRB 181112), localized with arcsecond precision, that passes through the halo of a foreground galaxy. Analysis of the burst shows that the halo gas has low net magnetization and turbulence. Our results imply predominantly diffuse gas in massive galactic halos, even those hosting active supermassive black holes, contrary to some previous results.Entities:
Year: 2019 PMID: 31558577 DOI: 10.1126/science.aay0073
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728