First light for GRAVITY: Phase referencing optical interferometry for the Very Large Telescope Interferometer

GRAVITY is a new instrument to coherently combine the light of the European Southern Observatory Very Large Telescope Interferometer to form a telescope with an equivalent 130 m diameter angular resolution and a collecting area of 200 m2. The instrument comprises fiber fed integrated optics beam combination, high resolution spectroscopy, built-in beam analysis and control, near-infrared wavefront sensing, phase-tracking, dual-beam operation, and laser metrology. GRAVITY opens up to optical/infrared interferometry the techniques of phase referenced imaging and narrow angle astrometry, in many aspects following the concepts of radio interferometry. This article gives an overview of GRAVITY and reports on the performance and the first astronomical observations during commissioning in 2015/16. We demonstrate phase-tracking on stars as faint as mK ≈ 10 mag, phase-referenced interferometry of objects fainter than mK ≈ 15 mag with a limiting magnitude of mK ≈ 17 mag, minute long coherent integrations, a visibility accuracy of better than 0.25%, and spectro-differential phase and closure phase accuracy better than 0.5°, corresponding to a differential astrometric precision of better than ten microarcseconds (μas). The dual-beam astrometry, measuring the phase difference of two objects with laser metrology, is still under commissioning. First observations show residuals as low as 50 μas when following objects over several months. We illustrate the instrument performance with the observations of archetypical objects for the different instrument modes. Examples include the  Galactic center supermassive black hole and its fast orbiting star S2 for phase referenced dual-beam observations and infrared wavefront sensing, the high mass X-ray binary BP Cru and the active galactic nucleus of PDS 456 for a few μas spectro-differential astrometry, the T Tauri star S CrA for a spectro-differential visibility analysis, ξ Tel and 24 Cap for high accuracy visibility observations, and η Car for interferometric imaging with GRAVITY.

S. Rabien | M. Accardo | G. Zins | F. Gonte | R. Brast | F. Derie | L. Pasquini | S. Oberti | D. Popovic | M. Kiekebusch | T. Paumard | R. Lenzen | J. Moreno-Ventas | J. Ramos | L. Jocou | Y. Magnard | T. Moulin | A. Kaufer | U. Neumann | N. Schuhler | N. Hubin | M. Suarez | K. Perraut | G. Duvert | A. Amorim | A. Eckart | G. Rousset | R. Genzel | E. Wieprecht | H. Bonnet | P. Kervella | P. Bourget | G. Finger | S. Gillessen | M. Kulas | A. Huber | J. Panduro | L. Mehrgan | S. Scheithauer | J. Kolb | G. Perrin | C. Straubmeier | L. Jochum | X. Haubois | G. Jakob | Th. Henning | Z. Hubert | M. Wiest | M. Mellein | I. Percheron | M. Wittkowski | I. Wank | P. Haguenauer | J. Woillez | M. Haug | F. Haussmann | S. Kellner | S. Yazici | N. Blind | P. Lena | F. Eisenhauer | R. Dembet | J. Dexter | E. Wiezorrek | F. Chapron | E. Gendron | T. Phan Duc | M. Riquelme | C. Deen | L. Burtscher | U. Grozinger | A. Buron | W. Brandner | M. Ebert | M. Esselborn | O. Pfuhl | F. Cassaing | A. Janssen | Y. Kok | M. Scholler | M. Lippa | O. Hans | T. Ott | E. Sturm | L. Pallanca | V. Lapeyrere | N. Azouaoui | L. Kern | C. Collin | I. Waisberg | S. Lacour | M. Grould | B. Lazareff | G. Perrin | C. Hummel | G. Rousset | R. Lenzen | T. Henning | P. Haguenauer | W. Brandner | N. Hubin | S. Lacour | S. Hippler | J. Spyromilio | R. Brast | F. Gonté | Y. Magnard | T. Moulin | D. Popovic | N. Schuhler | M. Suárez | G. Zins | P. Bourget | J. Kolb | S. Oberti | P. D. Zeeuw | J. Woillez | H. Bonnet | J. Berger | I. Percheron | G. Duvert | M. Esselborn | L. Pasquini | A. Eckart | E. Gendron | R. Genzel | J. Dexter | G. Finger | F. Eisenhauer | T. Paumard | L. Jochum | K. Tristram | P. Kervella | U. Grozinger | A. Huber | R. Klein | J. Panduro | K. Perraut | M. Benisty | A. M'erand | J. Bouquin | S. Gillessen | T. Ott | S. Rabien | E. Sturm | O. Pfuhl | F. Dérie | T. P. Duc | M. Kulas | F. Cassaing | R. G. López | M. Horrobin | L. Kern | M. Kiekebusch | P. F'edou | C. Collin | F. Chapron | P. Plewa | G. Jakob | E. Wieprecht | E. Wiezorrek | M. Riquelme | M. Ebert | B. Lazareff | M. Benisty | N. Ventura | J. P. Berger | F. Vincent | D. Ziegler | 'E. Choquet | V. Coud'e du Foresto | J.-B. Le Bouquin | L. Mehrgan | J. Spyromilio | P. T. de Zeeuw | GRAVITY Collaboration R. Abuter | Y. Cl'enet | P. Garcia | M. Horrobin | P. M. Plewa | R. Klein | M. Wittkowski | P. Léna | C. A. Hummel | V. C. D. Foresto | J. Sanchez-Bermudez | C. Rau | L. Jocou | A. Amorim | P. Garcia | X. Haubois | A. Kaufer | V. Lapeyrère | S. Scheithauer | C. Straubmeier | I. Waisberg | S. Yazici | Z. Hubert | G. C. R. Abuter | N. Anugu | N. Blind | A. Buron | Y. Cl'enet | C. Deen | F. Delplancke-Strobele | R. Dembet | P. Gordo | M. Haug | F. Haussmann | S. Kellner | Y. Kok | M. Lippa | E. Muller | U. Neumann | A. Ram'irez | J. Ramos | C. Rau | R. Rohloff | J. Sanchez-Bermudez | M. Scholler | I. Wank | M. Wiest | D. Ziegler | M. Accardo | G. Ávila | N. Azouaoui | L. Burtscher | 'Elodie Choquet | W. D. Wit | C. G. Dabo | M. Grould | S. Guieu | O. Hans | A. Janssen | S. L'eveque | M. Mellein | J. Moreno-Ventas | F. Muller | L. Pallanca | A. Pfluger | N. Ventura | F. Vincent | J. Weber | B. Wolff | A. M'erand | P. Gordo | S. Hippler | R.-R. Rohloff | B. Wolff | S. Guieu | N. Anugu | W. de Wit | R. Garcia Lopez | E. Muller | P. F'edou | G. 'Avila | F. Delplancke-Strobele | C. E. Garcia Dabo | S. L'eveque | F. Muller | A. Pfluger | A. Ram'irez | K.R.W. Tristram | J. Weber | M. Suarez | P. Zeeuw | J. L. Bouquin | T. Ott

[1]  G. Zins,et al.  Accretion-ejection morphology of the microquasar SS 433 resolved at sub-au scale , 2017, Astronomy & Astrophysics.

[2]  Eric Gendron,et al.  Experiments of two pupil lateral motion tracking algorithms using a Shack–Hartmann sensor , 2017 .

[3]  John D. Monnier,et al.  A High-mass Protobinary System with Spatially Resolved Circumstellar Accretion Disks and Circumbinary Disk , 2016, 1612.07804.

[4]  Reinhard Genzel,et al.  An Update on Monitoring Stellar Orbits in the Galactic Center , 2016, 1611.09144.

[5]  B. Lazareff,et al.  Structure of Herbig AeBe disks at the milliarcsecond scale: A statistical survey in the H band using PIONIER-VLTI , 2016, 1611.08428.

[6]  F. Millour,et al.  VLTI-AMBER velocity-resolved aperture-synthesis imaging of η Carinae with a spectral resolution of 12 000 - Studies of the primary star wind and innermost wind-wind collision zone , 2016, 1610.05438.

[7]  The red dwarf pair GJ65 AB: inflated, spinning twins of Proxima - Fundamental parameters from PIONIER, NACO, and UVES observations , 2016 .

[8]  G. Weigelt,et al.  The fossil wind structures of Eta Carinae: changes across one 5.54-yr cycle , 2016, 1608.06193.

[9]  O. Absil,et al.  Resolved astrometric orbits of ten O-type binaries , 2016, 1608.03525.

[10]  Christophe Dupuy,et al.  VLT interferometer upgrade for the 2nd generation of interferometric instruments , 2016, Astronomical Telescopes + Instrumentation.

[11]  Christophe Dupuy,et al.  NAOMI: a low-order adaptive optics system for the VLT interferometer , 2016, Astronomical Telescopes + Instrumentation.

[12]  Frank Eisenhauer,et al.  Control bandwidth improvements in GRAVITY fringe tracker by switching to a synchronous real time computer architecture , 2016, Astronomical Telescopes + Instrumentation.

[13]  Frank Eisenhauer,et al.  The metrology system of the VLTI instrument GRAVITY , 2016, Astronomical Telescopes + Instrumentation.

[14]  Armin Huber,et al.  CIAO: wavefront sensors for GRAVITY , 2016, Astronomical Telescopes + Instrumentation.

[15]  Christophe Dupuy,et al.  Sub-electron read noise and millisecond full-frame readout with the near infrared eAPD array SAPHIRA , 2016, Astronomical Telescopes + Instrumentation.

[16]  G. Zins,et al.  System tests and on-sky commissioning of the GRAVITY-CIAO wavefront sensors , 2016, Astronomical Telescopes + Instrumentation.

[17]  John S. Young,et al.  OIFITS version 2: the new standard for optical/IR interferometry data exchange , 2016, Astronomical Telescopes + Instrumentation.

[18]  Stephanie Thalberg,et al.  Interferometry And Synthesis In Radio Astronomy , 2016 .

[19]  H. McAlister,et al.  Robust high-contrast companion detection from interferometric observations - The CANDID algorithm and an application to six binary Cepheids , 2015, 1505.02715.

[20]  H. Netzer Revisiting the Unified Model of Active Galactic Nuclei , 2015, 1505.00811.

[21]  B. Lazareff,et al.  The VLTI/PIONIER near-infrared interferometric survey of southern T Tauri stars - I. First results , 2014, 1412.1052.

[22]  Romain G. Petrov,et al.  Differential interferometry of QSO broad-line regions – I. Improving the reverberation mapping model fits and black hole mass estimates , 2014, 1410.4837.

[23]  P. Hadrava,et al.  Stellar wind in state transitions of high-mass X-ray binaries , 2014, 1412.3924.

[24]  Bruno Lopez,et al.  An Overview of the MATISSE Instrument — Science, Concept and Current Status , 2014 .

[25]  Gert Finger,et al.  SAPHIRA detector for infrared wavefront sensing , 2014, Astronomical Telescopes and Instrumentation.

[26]  Frank Eisenhauer,et al.  The GRAVITY spectrometers: optical design and first light , 2014, Astronomical Telescopes and Instrumentation.

[27]  John D. Monnier,et al.  The 2014 interferometric imaging beauty contest , 2014, Astronomical Telescopes and Instrumentation.

[28]  Laurent Jocou,et al.  The beam combiners of Gravity VLTI instrument: concept, development, and performance in laboratory , 2014, Astronomical Telescopes and Instrumentation.

[29]  S. Huber,et al.  The fiber coupler and beam stabilization system of the GRAVITY interferometer , 2014, Astronomical Telescopes and Instrumentation.

[30]  S. Huber,et al.  GRAVITY: the calibration unit , 2014, Astronomical Telescopes and Instrumentation.

[31]  Gianluca Chiozzi,et al.  PC based PLCs and ethernet based fieldbus: the new standard platform for future VLT instrument control , 2014, Astronomical Telescopes and Instrumentation.

[32]  Guy Perrin,et al.  Comparison of fringe-tracking algorithms for single-mode near-infrared long-baseline interferometers , 2014 .

[33]  G. Perrin,et al.  Distinguishing an ejected blob from alternative flare models at the galactic centre with GRAVITY , 2014, 1404.6149.

[34]  S. Rabien,et al.  Reaching micro-arcsecond astrometry with long baseline optical interferometry - application to the GRAVITY instrument , 2014, 1404.1014.

[35]  P. Wizinowich,et al.  FIRST FAINT DUAL-FIELD OFF-AXIS OBSERVATIONS IN OPTICAL LONG BASELINE INTERFEROMETRY , 2014 .

[36]  S. Owocki,et al.  Constraints on decreases in η Carinae's mass-loss from 3D hydrodynamic simulations of its binary colliding winds , 2013, 1310.0487.

[37]  Armin Huber,et al.  Characterization of the transmitted near-infrared wavefront error for the GRAVITY/VLTI Coudé Infrared Adaptive Optics System. , 2013, Optics express.

[38]  É. Thiébaut Principles of Image Reconstruction in Interferometry , 2013 .

[39]  Julien Woillez,et al.  WIDE-ANGLE, NARROW-ANGLE, AND IMAGING BASELINES OF OPTICAL LONG-BASELINE INTERFEROMETERS , 2013 .

[40]  Laurent Jocou,et al.  The integrated optics beam combiner assembly of the GRAVITY/VLTI instrument , 2012, Other Conferences.

[41]  Christophe Dupuy,et al.  The Very Large Telescope Interferometer v2012+ , 2012, Other Conferences.

[42]  Frank Eisenhauer,et al.  The final design of the GRAVITY acquisition camera and associated VLTI beam monitoring strategy , 2012, Other Conferences.

[43]  Jean-Luis Lizon,et al.  The cryostat for the GRAVITY beam combiner instrument at the VLTI , 2012, Other Conferences.

[44]  G. Weigelt,et al.  Revealing the inner circumstellar disk of the T Tauri star S Coronae Australis N using the VLTI , 2012, 1207.2467.

[45]  F. Millour,et al.  VLTI/AMBER observations of the Seyfert nucleus of NGC 3783 , 2012, 1204.6122.

[46]  S. Lacour,et al.  Kalman-filter control schemes for fringe tracking Development and application to VLTI/GRAVITY , 2012 .

[47]  J. Davenport,et al.  MULTI-WAVELENGTH CHARACTERIZATION OF STELLAR FLARES ON LOW-MASS STARS USING SDSS AND 2MASS TIME-DOMAIN SURVEYS , 2012, 1202.1902.

[48]  J. Groh,et al.  The Time Evolution of Eta Carinae's Colliding Winds , 2011, 1110.6420.

[49]  Laurent Jocou,et al.  Searching for faint companions with VLTI/PIONIER. I. Method and first results , 2011, 1110.1178.

[50]  G. Montagnier,et al.  PIONIER: a 4-telescope visitor instrument at VLTI , 2011, 1109.1918.

[51]  R. Genzel,et al.  LINE DERIVED INFRARED EXTINCTION TOWARD THE GALACTIC CENTER , 2011, 1105.2822.

[52]  Vianak Naranjo,et al.  GRAVITY: observing the universe in motion , 2011 .

[53]  Gerd Weigelt,et al.  The innermost dusty structure in active galactic nuclei as probed by the Keck interferometer , 2010, 1012.5359.

[54]  John D. Monnier,et al.  A novel image reconstruction software for optical/infrared interferometry , 2010, Astronomical Telescopes + Instrumentation.

[55]  N. Radziwill,et al.  Software and Cyberinfrastructure for Astronomy , 2010 .

[56]  R. Genzel,et al.  The galactic center massive black hole and nuclear star cluster , 2010, 1006.0064.

[57]  S. Meimon,et al.  Imaging the spotty surface of Betelgeuse in the H band , 2009, 0910.4167.

[58]  T. Paumard,et al.  EVIDENCE FOR X-RAY SYNCHROTRON EMISSION FROM SIMULTANEOUS MID-INFRARED TO X-RAY OBSERVATIONS OF A STRONG Sgr A* FLARE , 2009, 0903.3416.

[59]  Gert Finger,et al.  NGC --- ESO's New General Detector Controller , 2009 .

[60]  Jessica R. Lu,et al.  Measuring Distance and Properties of the Milky Way’s Central Supermassive Black Hole with Stellar Orbits , 2008, 0808.2870.

[61]  Éric Thiébaut,et al.  MIRA: an effective imaging algorithm for optical interferometry , 2008, Astronomical Telescopes + Instrumentation.

[62]  Donald N. B. Hall,et al.  Performance evaluation, readout modes, and calibration techniques of HgCdTe Hawaii-2RG mosaic arrays , 2008, Astronomical Telescopes + Instrumentation.

[63]  Paolo Santin,et al.  A common framework for the observation software of astronomical instruments at ESO , 2008, Astronomical Telescopes + Instrumentation.

[64]  Françoise Delplancke,et al.  The PRIMA facility phase-referenced imaging and micro-arcsecond astrometry , 2008 .

[65]  G. Perrin,et al.  The limb-darkened Arcturus: imaging with the IOTA/IONIC interferometer , 2008, 0804.0192.

[66]  D. Leahy,et al.  Stellar wind accretion in GX 301−2: evidence for a high-density stream , 2007, 0709.0543.

[67]  David Mouillet,et al.  AMBER : Instrument description and first astrophysical results Special feature AMBER , the near-infrared spectro-interferometric three-telescope VLTI instrument , 2007 .

[68]  E. Tatulli,et al.  Interferometric data reduction with AMBER/VLTI. Principle, estimators, and illustration. , 2006, astro-ph/0603046.

[69]  Francesco Paresce The Power of Optical/IR Interferometry , 2007 .

[70]  Madrid,et al.  VLT/UVES spectroscopy of Wray 977, the hypergiant companion to the X-ray pulsar GX301-2 , 2006, astro-ph/0607613.

[71]  Enrico Fedrigo,et al.  SPARTA: the ESO standard platform for adaptive optics real time applications , 2006, SPIE Astronomical Telescopes + Instrumentation.

[72]  Romain G. Petrov,et al.  VLTI-AMBER observations of Eta Carinae with high spatial resolution and spectral resolutions of 1,500 and 10,000 , 2006, SPIE Astronomical Telescopes + Instrumentation.

[73]  T. Paumard,et al.  The Two Young Star Disks in the Central Parsec of the Galaxy: Properties, Dynamics, and Formation , 2006, astro-ph/0601268.

[74]  Norbert Hubin,et al.  SINFONI in the Galactic Center: Young Stars and Infrared Flares in the Central Light-Month , 2005 .

[75]  C.Dumas,et al.  SINFONI in the Galactic Center: young stars and IR flares in the central light month , 2005, astro-ph/0502129.

[76]  Pascal Bordé,et al.  A catalog of bright calibrator stars for 200-m baseline near-infrared stellar interferometry , 2004, astro-ph/0412251.

[77]  Luigi Andolfato,et al.  Star separator system for the dual-field capability (PRIMA) of the VLTI , 2004, SPIE Astronomical Telescopes + Instrumentation.

[78]  Gerardo Avila,et al.  IRIS: an infrared tilt sensor for the VLTI , 2004, SPIE Astronomical Telescopes + Instrumentation.

[79]  Bertrand Mennesson,et al.  Unveiling Mira stars behind the molecules - Confirmation of the molecular layer model with narrow band near-infrared interferometry , 2004 .

[80]  A. Eckart,et al.  First simultaneous NIR/X-ray detection of a flare from Sgr A , 2004, astro-ph/0403577.

[81]  B. Lane,et al.  Differential Astrometry of Subarcsecond Scale Binaries at the Palomar Testbed Interferometer , 2003, astro-ph/0308381.

[82]  Alan Bridger,et al.  Optimizing Scientific Return for Astronomy through Information Technologies , 2004 .

[83]  D. Rouan,et al.  Near-infrared flares from accreting gas around the supermassive black hole at the Galactic Centre , 2003, Nature.

[84]  M. Schoeller,et al.  Direct measurement of the size and shape of the present-day stellar wind of $\eta$ Carinae , 2003, astro-ph/0310399.

[85]  R. Lachaume On marginally resolved objects in optical interferometry , 2003, astro-ph/0304259.

[86]  Rainer Wilhelm,et al.  Toward nanometer accuracy laser metrology for phase-referenced interferometry with the VLTI , 2003, SPIE Astronomical Telescopes + Instrumentation.

[87]  Wesley A. Traub,et al.  Interferometry for Optical Astronomy II , 2003 .

[88]  T. Greene,et al.  Astrophysics of Young Star Binaries , 2002, astro-ph/0211376.

[89]  K. Menten,et al.  A star in a 15.2-year orbit around the supermassive black hole at the centre of the Milky Way , 2002, Nature.

[90]  Caltech,et al.  Rapid X-ray flaring from the direction of the supermassive black hole at the Galactic Centre , 2001, Nature.

[91]  P. Tuthill,et al.  The Berkeley Infrared Spatial Interferometer: A Heterodyne Stellar Interferometer for the Mid-Infrared , 2000 .

[92]  Hawaii,et al.  PDS 456: an extreme accretion rate quasar? , 1999, astro-ph/9911475.

[93]  Gautam Vasisht,et al.  The Palomar Testbed Interferometer , 1998, Astronomical Telescopes and Instrumentation.

[94]  J. Blondin The shadow wind in high-mass X-ray binaries , 1994 .

[95]  F. Haberl The X-ray properties of GX 301−2 (4U 1223-62) , 1991 .

[96]  William H. Press,et al.  Numerical recipes in C. The art of scientific computing , 1987 .

[97]  G. Swenson,et al.  Interferometry and Synthesis in Radio Astronomy , 1986 .

[98]  S. C. Unwin,et al.  Superluminal expansion of quasar 3C273 , 1981, Nature.

[99]  M Shao,et al.  First fringe measurements with a phase-tracking stellar interferometer. , 1980, Applied optics.

[100]  Antoine Labeyrie,et al.  Interference fringes obtained on VEGA with two optical telescopes , 1975 .

[101]  Charles H. Townes,et al.  10-μm Heterodyne Stellar Interferometer , 1974 .

[102]  M. Ryle,et al.  Observations of Cygnus a with the 5-km Radio Telescope , 1974 .

[103]  A. Michelson,et al.  Measurement of the Diameter of Alpha-Orionis by the Interferometer. , 1921, Proceedings of the National Academy of Sciences of the United States of America.