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First M87 Event Horizon Telescope Results and the Role of ALMA

Authors :
Goddi, Ciriaco
Crew, Geoff
Impellizzeri, Violette
Marti-Vidal, Ivan
Matthews, Lynn D.
Messias, Hugo
Rottmann, Helge
Alef, Walter
Blackburn, Lindy
Bronzwaer, Thomas
Chan, Chi-Kwan
Davelaar, Jordy
Deane, Roger
Dexter, Jason
Doeleman, Shep
Falcke, Heino
Fish, Vincent L.
Fraga-Encinas, Raquel
Fromm, Christian M.
Herrero-Illana, Ruben
Issaoun, Sara
James, David
Janssen, Michael
Kramer, Michael
Krichbaum, Thomas P.
De Laurentis, Mariafelicia
Liuzzo, Elisabetta
Mizuno, Yosuke
Moscibrodzka, Monika
Natarajan, Iniyan
Porth, Oliver
Rezzolla, Luciano
Rygl, Kazi
Roelofs, Freek
Ros, Eduardo
Roy, Alan L.
Shao, Lijing
van Langevelde, Huib Jan
van Bemmel, Ilse
Tilanus, Remo
Torne, Pablo
Wielgus, Maciek
Younsi, Ziri
Zensus, J. Anton
Source :
The Messenger, 177, 25 (2019)
Publication Year :
2019

Abstract

In April 2019, the Event Horizon Telescope (EHT) collaboration revealed the first image of the candidate super-massive black hole (SMBH) at the centre of the giant elliptical galaxy Messier 87 (M87). This event-horizon-scale image shows a ring of glowing plasma with a dark patch at the centre, which is interpreted as the shadow of the black hole. This breakthrough result, which represents a powerful confirmation of Einstein's theory of gravity, or general relativity, was made possible by assembling a global network of radio telescopes operating at millimetre wavelengths that for the first time included the Atacama Large Millimeter/ submillimeter Array (ALMA). The addition of ALMA as an anchor station has enabled a giant leap forward by increasing the sensitivity limits of the EHT by an order of magnitude, effectively turning it into an imaging array. The published image demonstrates that it is now possible to directly study the event horizon shadows of SMBHs via electromagnetic radiation, thereby transforming this elusive frontier from a mathematical concept into an astrophysical reality. The expansion of the array over the next few years will include new stations on different continents - and eventually satellites in space. This will provide progressively sharper and higher-fidelity images of SMBH candidates, and potentially even movies of the hot plasma orbiting around SMBHs. These improvements will shed light on the processes of black hole accretion and jet formation on event-horizon scales, thereby enabling more precise tests of general relativity in the truly strong field regime.<br />Comment: 11 pages + cover page, 6 figures

Details

Database :
arXiv
Journal :
The Messenger, 177, 25 (2019)
Publication Type :
Report
Accession number :
edsarx.1910.10193
Document Type :
Working Paper
Full Text :
https://doi.org/10.18727/0722-6691/5150