From Vision to Instrument: Creating a Next-Generation Event Horizon Telescope for a New Era of Black Hole Science

In April 2019, the Event Horizon Telescope Collaboration successfully imaged the first supermassive black hole (M87*), opening a new era in detailed study of these exotic objects. By sharply enhancing the capabilities of black hole imaging, the next-generation EHT (ngEHT) is poised to again revoluti...

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Schlagworte:	accretion accretion disk accretion inflows active galactic nuclei active galaxies AGN algorithms astrometry astronomical instrumentation astronomical techniques Astronomy, space and time black hole black holes correlation data analysis dynamical image reconstruction EHT event horizon telescope galaxy jets general relativity governance GPU GRMHD high angular resolution history hot spot imaging instrument design interferometric techniques interferometry jet launching M87 magnetohydrodynamics Mathematics and Science Messier 87 millimeter astronomy multi-wavelength studies n/a neutrinos next-generation event horizon telescope ngEHT no hair theorems philosophy photon rings Physics plasma composition polarimetry precipitable water vapor quasars radiative transfer Radio Astronomy radio continuum radio instrumentation radio interferometry radio telescopes Reference, Information and Interdisciplinary subjects relativistic Jet relativistic jets Research and information: general robustness Sagittarius A scientific collaborations SFPR Sgr A signal processing SMA SMBHs social sciences StarWarps submillimeter astronomy supermassive black holes telescopes Tensor Core time-variability very long baseline interferometry very long baseline interferometry (VLBI) visualization VLBI
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description	In April 2019, the Event Horizon Telescope Collaboration successfully imaged the first supermassive black hole (M87*), opening a new era in detailed study of these exotic objects. By sharply enhancing the capabilities of black hole imaging, the next-generation EHT (ngEHT) is poised to again revolutionize our view of horizon-scale physics. The ngEHT will enable the first movies of black hole accretion, produce high-dynamic-range images that connect black holes directly to their galactic-scale relativistic jets, and bring into range a larger population of black holes and explosive transients to explore. This Special Issue develops the key science drivers and architecture of the ngEHT. The contributions sharpen the ngEHT scientific vision and implementation by illuminating and proposing new possibilities in the following areas: Fundamental physics; Black holes and their cosmic context; Accretion; Jet launching; Transients and impulsive phenomena; Algorithms and inference; History, philosophy, and cultural implications of building new instruments in the current era; Advances in submillimeter VLBI instrumentation; VLBI array design and optimization
doi_str_mv	10.3390/books978-3-0365-9355-5
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By sharply enhancing the capabilities of black hole imaging, the next-generation EHT (ngEHT) is poised to again revolutionize our view of horizon-scale physics. The ngEHT will enable the first movies of black hole accretion, produce high-dynamic-range images that connect black holes directly to their galactic-scale relativistic jets, and bring into range a larger population of black holes and explosive transients to explore. This Special Issue develops the key science drivers and architecture of the ngEHT. The contributions sharpen the ngEHT scientific vision and implementation by illuminating and proposing new possibilities in the following areas: Fundamental physics; Black holes and their cosmic context; Accretion; Jet launching; Transients and impulsive phenomena; Algorithms and inference; History, philosophy, and cultural implications of building new instruments in the current era; Advances in submillimeter VLBI instrumentation; VLBI array design and optimization</description><identifier>ISBN: 9783036593548</identifier><identifier>ISBN: 3036593543</identifier><identifier>ISBN: 9783036593555</identifier><identifier>ISBN: 3036593551</identifier><identifier>DOI: 10.3390/books978-3-0365-9355-5</identifier><language>eng</language><publisher>Basel: MDPI - Multidisciplinary Digital Publishing Institute</publisher><subject>accretion ; accretion disk ; accretion inflows ; active galactic nuclei ; active galaxies ; AGN ; algorithms ; astrometry ; astronomical instrumentation ; astronomical techniques ; Astronomy, space and time ; black hole ; black holes ; correlation ; data analysis ; dynamical image reconstruction ; EHT ; event horizon telescope ; galaxy jets ; general relativity ; governance ; GPU ; GRMHD ; high angular resolution ; history ; hot spot ; imaging ; instrument design ; interferometric techniques ; interferometry ; jet launching ; M87 ; magnetohydrodynamics ; Mathematics and Science ; Messier 87 ; millimeter astronomy ; multi-wavelength studies ; n/a ; neutrinos ; next-generation event horizon telescope ; ngEHT ; no hair theorems ; philosophy ; photon rings ; Physics ; plasma composition ; polarimetry ; precipitable water vapor ; quasars ; radiative transfer ; Radio Astronomy ; radio continuum ; radio instrumentation ; radio interferometry ; radio telescopes ; Reference, Information and Interdisciplinary subjects ; relativistic Jet ; relativistic jets ; Research and information: general ; robustness ; Sagittarius A ; scientific collaborations ; SFPR ; Sgr A ; signal processing ; SMA ; SMBHs ; social sciences ; StarWarps ; submillimeter astronomy ; supermassive black holes ; telescopes ; Tensor Core ; time-variability ; very long baseline interferometry ; very long baseline interferometry (VLBI) ; visualization ; VLBI</subject><creationdate>2023</creationdate><tpages>470</tpages><format>470</format><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>306,776,780,782,27902,55285</link.rule.ids></links><search><contributor>Doeleman, Shep</contributor><contributor>Gómez, Jose L</contributor><contributor>Johnson, Michael D</contributor><title>From Vision to Instrument: Creating a Next-Generation Event Horizon Telescope for a New Era of Black Hole Science</title><description>In April 2019, the Event Horizon Telescope Collaboration successfully imaged the first supermassive black hole (M87), opening a new era in detailed study of these exotic objects. By sharply enhancing the capabilities of black hole imaging, the next-generation EHT (ngEHT) is poised to again revolutionize our view of horizon-scale physics. The ngEHT will enable the first movies of black hole accretion, produce high-dynamic-range images that connect black holes directly to their galactic-scale relativistic jets, and bring into range a larger population of black holes and explosive transients to explore. This Special Issue develops the key science drivers and architecture of the ngEHT. 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subjects	accretion accretion disk accretion inflows active galactic nuclei active galaxies AGN algorithms astrometry astronomical instrumentation astronomical techniques Astronomy, space and time black hole black holes correlation data analysis dynamical image reconstruction EHT event horizon telescope galaxy jets general relativity governance GPU GRMHD high angular resolution history hot spot imaging instrument design interferometric techniques interferometry jet launching M87 magnetohydrodynamics Mathematics and Science Messier 87 millimeter astronomy multi-wavelength studies n/a neutrinos next-generation event horizon telescope ngEHT no hair theorems philosophy photon rings Physics plasma composition polarimetry precipitable water vapor quasars radiative transfer Radio Astronomy radio continuum radio instrumentation radio interferometry radio telescopes Reference, Information and Interdisciplinary subjects relativistic Jet relativistic jets Research and information: general robustness Sagittarius A scientific collaborations SFPR Sgr A signal processing SMA SMBHs social sciences StarWarps submillimeter astronomy supermassive black holes telescopes Tensor Core time-variability very long baseline interferometry very long baseline interferometry (VLBI) visualization VLBI
title	From Vision to Instrument: Creating a Next-Generation Event Horizon Telescope for a New Era of Black Hole Science
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