MATISSE, the VLTI mid-infrared imaging spectro-interferometer

B. Lopez (1); S. Lagarde (1); R.G. Petrov (1); W. Jaffe (2); P.; Antonelli (1); F. Allouche (1); P. Berio (1); A. Matter (1); A. Meilland (1),; F.Millour (1); S. Robbe-Dubois (1); Th. Henning (5); G. Weigelt (3); A.; Glindemann (6); T. Agocs (4); Ch. Bailet (1); U. Beckmann (3); F.Bettonvil; (4); R. van Boekel (5); P. Bourget (7); Y. Bresson (1); P. Bristow (6); P.; Cruzal\`ebes (1); E. Eldswijk (4); Y. Fante\"i Caujolle (1); J.C. Gonz\'alez; Herrera (6); U. Graser (5); P. Guajardo (7); M. Heininger (5); K.-H. Hofmann; (3); G. Kroes (4); W. Laun (5); M. Lehmitz (5); C. Leinert (5); K.; Meisenheimer (5); S. Morel (1); U. Neumann (5); C. Paladini (7); I. Percheron; (6); M. Riquelme (7); M. Schoeller (6); Ph.Stee (1); L. Venema (4); J.; Woillez (6); G. Zins (6,7); P. \'Abrah\'am (8); S. Abadie (7); R. Abuter (6),; M. Accardo (6); T. Adler (5); J. Alonso (7); J.-C. Augereau (9); A. B\"ohm; (5); G. Bazin (6); J. Beltran (7); A. Bensberg (26); W. Boland (2); R. Brast; (6); L. Burtscher (2); R. Castillo (7); A. Chelli (1); C. Cid (7); J.-M.; Clausse (1); C. Connot (3); R.D. Conzelmann (6); W.-C. Danchi (10); M. Delbo; (1); J. Drevon (1); C.Dominik (11); A. van Duin (4); M. Ebert (5); F.; Eisenhauer (12); S. Flament (1); R. Frahm (6); V. G\'amez Rosas (2); A.; Gabasch (6); A.Gallenne (13,14,15); E. Garces (7); P. Girard (1); A.; Glazenborg (4); F.Y.J. Gont\'e (7); F. Guitton (1); M. de Haan (4); H.; Hanenburg (4); X.Haubois (7); V. Hocd\'e (1); M. Hogerheijde (2,11); R. ter; Horst (4); J. Hron (16); C.A. Hummel (6); N. Hubin (6); R. Huerta (7); J.; Idserda (4); J. W. Isbell (5); D. Ives (6); G. Jakob (6); A. Jask\'o (4,8),; L. Jochum (7); L. Klarmann (5); R. Klein (5); J. Kragt (4); S. Kuindersma; (4); E.Kokoulina (1); L. Labadie (17); S. Lacour (18); J. Leftley (1); R. Le; Poole (2); J.-L. Lizon (6); M. Lopez (7); A. M\'erand (6); A. Marcotto (1),; N. Mauclert (1); T. Maurer (5); L.H. Mehrgan (6); J. Meisner (2); K. Meixner; (5); M. Mellein (5); J.L. Menut (19); L. Mohr (5); L.Mosoni (20,8); R.; Navarro (4); E. Nussbaum (3); L. Pallanca (7); E. Pantin (21); L. Pasquini; (6); T. Phan Duc (6); J.-U. Pott (5); E. Pozna (6); A. Richichi (22); A.; Ridinger (5); F. Rigal (4); Th. Rivinius (7); R. Roelfsema (4); R.-R. Rohloff; (5); S. Rousseau (1); D. Salabert (1); D.Schertl (3); N. Schuhler (7); M.; Schuil (4); K. Shabun (6); A. Soulain (23); C. Stephan (7); P. Toledo (7); K.; Tristram (7); N. Tromp (4); F.Vakili (1); J. Varga (2,8); J. Vinther (6),; L.B.F.M. Waters (24,25); M. Wittkowski (6); S. Wolf (26); F. Wrhel (5); and; G. Yoffe (5) ((1) Laboratoire Lagrange; Universit\'e C\^ote d'Azur,; Observatoire de la C\^ote d'Azur; CNRS; Nice; France; (2) Leiden Observatory,; Leiden University; Leiden; Netherlands; (3) Max-Planck-Institut f\"ur; Radioastronomie; Bonn; Germany; (4) NOVA Optical IR Instrumentation Group at; ASTRON; Dwingeloo; Netherlands; (5) Max Planck Institute for Astronomy,; Heidelberg; Germany,(6) European Southern Observatory Headquarters; Garching; bei M\"unchen; Germany,(7) European Southern Observatory; Santiago; Chile,(8); Konkoly Observatory; Research Centre for Astronomy; EarthSciences,; E\"otv\"os Lor\'and Research Network (ELKH); Budapest; Hungary,(9) Univ.; Grenoble Alpes; CNRS; IPAG; Grenoble; France (10) NASA Goddard Space Flight; Center Astrophysics Science Division; Code Greenbelt; MD; U.S.A. (11) Anton; Pannekoek Institute for Astronomy; University of Amsterdam; Amsterdam,; Netherlands (12) Max Planck Institute for Extraterrestrial Physics; Garching,; Germany (13) Departamento de Astronom\'ia; Universidad de Concepci\'on,; Concepci\'on; Chile,(14) Nicolaus Copernicus Astronomical Centre; Polish; Academy of Sciences; Warszawa; Poland (15) Unidad Mixta Internacional; Franco-Chilena de Astronom\'ia; Departamento de Astronom\'ia; Universidad de; Chile; Santiago; Chile,(16) Department of Astrophysics; University of Vienna,; Vienna; Austria,(17) Physikalisches Institut; Universit\"at zu K\"oln,; K\"oln; Germany,(18) Laboratoire d'\'etudes spatiales et d' instrumentation; en astrophysique; Observatoire de Paris; Meudon; France,(19) GEOAZUR; Campus; CNRS; Valbonne; France,(20) Zselic Park of Stars; Zselickisfalud,; Hungary,(21) AIM; CEA; CNRS; Universit\'e Paris-Saclay; Universit\'e Paris,; Diderot; Sorbonne Paris Cit\'e; France,(22) National Astronomical Research; Institute of Thailand; Suthep; Muang Chiang Mai; Thailand,(23) Sydney; Institute for Astronomy; School of Physics; A28; The University of Sydney,; Australia,(24) Institute for Mathematics; Astrophysics; Particle Physics,; Radboud University; Nijmegen; Netherlands,(25) SRON Netherlands Institute for; Space Research; Utrecht; Netherlands (26) Institute of Theoretical Physics; and Astrophysics University of Kiel; Kiel; Germany)

arXiv:2110.15556·astro-ph.IM·March 30, 2022

MATISSE, the VLTI mid-infrared imaging spectro-interferometer

B. Lopez (1), S. Lagarde (1), R.G. Petrov (1), W. Jaffe (2), P., Antonelli (1), F. Allouche (1), P. Berio (1), A. Matter (1), A. Meilland (1),, F.Millour (1), S. Robbe-Dubois (1), Th. Henning (5), G. Weigelt (3), A., Glindemann (6), T. Agocs (4), Ch. Bailet (1), U. Beckmann (3)

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TL;DR

MATISSE is a state-of-the-art mid-infrared spectro-interferometer at VLTI, enabling high-resolution imaging across multiple spectral bands to study astronomical phenomena like star formation, black holes, and planetary disks.

Contribution

This paper introduces the design, capabilities, and first scientific results of MATISSE, a new instrument that advances mid-infrared interferometric imaging at ESO's VLTI.

Findings

01

First images of astronomical objects obtained with MATISSE.

02

Instrument operational since 2018 at Cerro Paranal.

03

Open for international scientific use since 2019.

Abstract

Context:Optical interferometry is at a key development stage. ESO's VLTI has established a stable, robust infrastructure for long-baseline interferometry for general astronomical observers. The present second-generation instruments offer a wide wavelength coverage and improved performance. Their sensitivity and measurement accuracy lead to data and images of high reliability. Aims:We have developed MATISSE, the Multi AperTure mid-Infrared SpectroScopic Experiment, to access high resolution imaging in a wide spectral domain and explore topics such: stellar activity and mass loss; planet formation and evolution in the gas and dust disks around young stars; accretion processes around super massive black holes in AGN. Methods:The instrument is a spectro-interferometric imager covering three atmospheric bands (L,M,N) from 2.8 to 13.0 mu, combining four optical beams from the VLTI's…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Adaptive optics and wavefront sensing · Stellar, planetary, and galactic studies