TY - JOUR
T1 - VLBI20-30
T2 - a scientific roadmap for the next decade -- The future of the European VLBI Network
AU - European VLBI Network
AU - Venturi, Tiziana
AU - Paragi, Zsolt
AU - Lindqvist, Michael
AU - Bartkiewicz, Anna
AU - Beswick, Rob
AU - Bogdanović, Tamara
AU - Brisken, Walter
AU - Charlot, Patrick
AU - Colomer, Francisco
AU - Conway, John
AU - Frey, Sándor
AU - Guirado, José Carlos
AU - Gurvits, Leonid
AU - Langevelde, Huib van
AU - Lobanov, Andrei
AU - McKean, John
AU - Morganti, Raffaella
AU - Muxlow, Tom
AU - Pérez-Torres, Miguel
AU - Rygl, Kazi
AU - Schulz, Robert
AU - Szomoru, Arpad
AU - Vicente, Pablo de
AU - An, Tao
AU - Anglada, Guillem
AU - Argo, Megan
AU - Azulay, Rebecca
AU - Bemmel, Ilse van
AU - Bocanegra, Tatiana
AU - Boccardi, Biagina
AU - Castangia, Paola
AU - Chibueze, James
AU - Cimò, Giuseppe
AU - Climent, Juan-Bautista
AU - Deane, Roger
AU - Deller, Adam
AU - Dodson, Richard
AU - Duev, Dmitry
AU - Etoka, Sandra
AU - Fenech, Danielle
AU - Gabányi, Krisztina
AU - Gabuzda, Denise
AU - Garrett, Michael
AU - Gawroński, Marcin
AU - Ghirlanda, Giancarlo
AU - Gray, Malcolm
AU - Laing, Robert
AU - Richards, Anita
AU - Varenius, Eskil
AU - Vlemmings, Wouter
N1 - Editors: Tiziana Venturi, Zsolt Paragi, Michael Lindqvist. "EVN Vision Document (2020)", 7 chapters, 3 appendices, 191 pages, 64 figures. Chapter coordinators and all the contributors are listed in the document
PY - 2020/7/5
Y1 - 2020/7/5
N2 - This white paper describes the science case for Very Long Baseline Interferometry (VLBI) and provides suggestions towards upgrade paths for the European VLBI Network (EVN). The EVN is a distributed long-baseline radio interferometric array, that operates at the very forefront of astronomical research. Recent results, together with the new science possibilities outlined in this vision document, demonstrate the EVN's potential to generate new and exciting results that will transform our view of the cosmos. Together with e-MERLIN, the EVN provides a range of baseline lengths that permit unique studies of faint radio sources to be made over a wide range of spatial scales. The science cases are reviewed in six chapters that cover the following broad areas: cosmology, galaxy formation and evolution, innermost regions of active galactic nuclei, explosive phenomena and transients, stars and stellar masers in the Milky Way, celestial reference frames and space applications. The document concludes with identifying the synergies with other radio, as well as multi-band/multi-messenger instruments, and provide the recommendations for future improvements. The appendices briefly describe other radio VLBI arrays, the technological framework for EVN developments, and a selection of spectral lines of astrophysical interest below 100 GHz. The document includes a glossary for non-specialists, and a list of acronyms at the end.
AB - This white paper describes the science case for Very Long Baseline Interferometry (VLBI) and provides suggestions towards upgrade paths for the European VLBI Network (EVN). The EVN is a distributed long-baseline radio interferometric array, that operates at the very forefront of astronomical research. Recent results, together with the new science possibilities outlined in this vision document, demonstrate the EVN's potential to generate new and exciting results that will transform our view of the cosmos. Together with e-MERLIN, the EVN provides a range of baseline lengths that permit unique studies of faint radio sources to be made over a wide range of spatial scales. The science cases are reviewed in six chapters that cover the following broad areas: cosmology, galaxy formation and evolution, innermost regions of active galactic nuclei, explosive phenomena and transients, stars and stellar masers in the Milky Way, celestial reference frames and space applications. The document concludes with identifying the synergies with other radio, as well as multi-band/multi-messenger instruments, and provide the recommendations for future improvements. The appendices briefly describe other radio VLBI arrays, the technological framework for EVN developments, and a selection of spectral lines of astrophysical interest below 100 GHz. The document includes a glossary for non-specialists, and a list of acronyms at the end.
KW - astro-ph.IM
KW - astro-ph.CO
KW - astro-ph.EP
KW - astro-ph.GA
KW - astro-ph.HE
KW - astro-ph.SR
M3 - Article
JO - VLBI20-30
JF - VLBI20-30
ER -