Key science goals for the next-generation Event Horizon Telescope

Open Access
Authors
  • M.D. Johnson
  • K. Akiyama
  • L. Blackburn
  • K.L. Bouman
  • A.E. Broderick
  • V. Cardoso
  • R.P. Fender
  • C.M. Fromm
  • P. Galison
  • J.L. Gómez
  • D. Haggard
  • M.L. Lister
  • A.P. Lobanov
  • S. Markoff
  • R. Narayan
  • P. Natarajan
  • T. Nichols
  • D.W. Pesce
  • Z. Younsi
  • A. Chael
  • K. Chatterjee
  • R. Chaves
  • J. Doboszewski
  • R. Dodson
  • S.S. Doeleman
  • J. Elder
  • G. Fitzpatrick
  • K. Haworth
  • J. Houston
  • S. Issaoun
  • Y.Y. Kovalev
  • A. Levis
  • R. Lico
  • A. Marcoci
  • N.C.M. Martens
  • N.M. Nagar
  • A. Oppenheimer
  • D.C.M. Palumbo
  • A. Ricarte
  • M.J. Rioja
  • F. Roelofs
  • A.C. Thresher
  • P. Tiede
  • J. Weintroub
  • M. Wielgus
Publication date 06-2023
Journal Galaxies
Article number 61
Volume | Issue number 11 | 3
Number of pages 38
Organisations
  • Faculty of Science (FNWI) - Anton Pannekoek Institute for Astronomy (API)
Abstract
The Event Horizon Telescope (EHT) has led to the first images of a supermassive black hole, revealing the central compact objects in the elliptical galaxy M87 and the Milky Way. Proposed upgrades to this array through the next-generation EHT (ngEHT) program would sharply improve the angular resolution, dynamic range, and temporal coverage of the existing EHT observations. These improvements will uniquely enable a wealth of transformative new discoveries related to black hole science, extending from event-horizon-scale studies of strong gravity to studies of explosive transients to the cosmological growth and influence of supermassive black holes. Here, we present the key science goals for the ngEHT and their associated instrument requirements, both of which have been formulated through a multi-year international effort involving hundreds of scientists worldwide.
Document type Article
Language English
Published at https://doi.org/10.3390/galaxies11030061
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