Reference : Gaia Data Release 2. Processing the spectroscopic data
Scientific journals : Article
Physical, chemical, mathematical & earth Sciences : Space science, astronomy & astrophysics
http://hdl.handle.net/2268/228365
Gaia Data Release 2. Processing the spectroscopic data
English
Sartoretti, P. [> >]
Katz, D. [> >]
Cropper, M. [> >]
Panuzzo, P. [> >]
Seabroke, G. M. [> >]
Viala, Y. [> >]
Benson, K. [> >]
Blomme, R. [> >]
Jasniewicz, G. [> >]
Jean-Antoine, A. [> >]
Huckle, H. [> >]
Smith, M. [> >]
Baker, S. [> >]
Crifo, F. [> >]
Damerdji, Yassine mailto [Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Astroph. extragalactique et observations spatiales (AEOS) >]
David, M. [> >]
Dolding, C. [> >]
Frémat, Y. [> >]
Gosset, Eric mailto [Université de Liège - ULiège > > Groupe d'astrophysique des hautes énergies (GAPHE) >]
Guerrier, A. [> >]
Guy, L. P. [> >]
Haigron, R. [> >]
Janßen, K. [> >]
Marchal, O. [> >]
Plum, G. [> >]
Soubiran, C. [> >]
Thévenin, F. [> >]
Ajaj, M. [> >]
Allende Prieto, C. [> >]
Babusiaux, C. [> >]
Boudreault, S. [> >]
Chemin, L. [> >]
Delle Luche, C. [> >]
Fabre, C. [> >]
Gueguen, A. [> >]
Hambly, N. C. [> >]
Lasne, Y. [> >]
Meynadier, F. [> >]
Pailler, F. [> >]
Panem, C. [> >]
Riclet, F. [> >]
Royer, F. [> >]
Tauran, G. [> >]
Zurbach, C. [> >]
Zwitter, T. [> >]
Arenou, F. [> >]
Gomez, A. [> >]
Lemaitre, V. [> >]
Leclerc, N. [> >]
Morel, Thierry mailto [Université de Liège - ULiège > Département d'astrophys., géophysique et océanographie (AGO) > Astrophysique stellaire théorique et astérosismologie >]
Munari, U. [> >]
Turon, C. [> >]
Žerjal, M. [> >]
1-Aug-2018
Astronomy and Astrophysics
616
A
6
Yes
International
0004-3631
[en] catalogs ; techniques: radial velocities ; surveys ; methods: data analysis ; Astrophysics - Astrophysics of Galaxies ; Astrophysics - Instrumentation and Methods for Astrophysics ; Astrophysics - Solar and Stellar Astrophysics
[en] Context. The Gaia Data Release 2 (DR2) contains the first release of radial velocities complementing the kinematic data of a sample of about 7 million relatively bright, late-type stars. <BR /> Aims: This paper provides a detailed description of the Gaia spectroscopic data processing pipeline, and of the approach adopted to derive the radial velocities presented in DR2. <BR /> Methods: The pipeline must perform four main tasks: (i) clean and reduce the spectra observed with the Radial Velocity Spectrometer (RVS); (ii) calibrate the RVS instrument, including wavelength, straylight, line-spread function, bias non- uniformity, and photometric zeropoint; (iii) extract the radial velocities; and (iv) verify the accuracy and precision of the results. The radial velocity of a star is obtained through a fit of the RVS spectrum relative to an appropriate synthetic template spectrum. An additional task of the spectroscopic pipeline was to provide first-order estimates of the stellar atmospheric parameters required to select such template spectra. We describe the pipeline features and present the detailed calibration algorithms and software solutions we used to produce the radial velocities published in DR2. <BR /> Results: The spectroscopic processing pipeline produced median radial velocities for Gaia stars with narrow-band near-IR magnitude G[SUB]RVS[/SUB] ≤ 12 (i.e. brighter than V 13). Stars identified as double-lined spectroscopic binaries were removed from the pipeline, while variable stars, single- lined, and non-detected double-lined spectroscopic binaries were treated as single stars. The scatter in radial velocity among different observations of a same star, also published in Gaia DR2, provides information about radial velocity variability. For the hottest (T[SUB]eff[/SUB] ≥ 7000 K) and coolest (T[SUB]eff[/SUB] ≤ 3500 K) stars, the accuracy and precision of the stellar parameter estimates are not sufficient to allow selection of appropriate templates. The radial velocities obtained for these stars were removed from DR2. The pipeline also provides a first-order estimate of the performance obtained. The overall accuracy of radial velocity measurements is around 200-300 m s[SUP]-1[/SUP], and the overall precision is 1 km s[SUP]-1[/SUP]; it reaches 200 m s[SUP]-1[/SUP] for the brightest stars.
Researchers ; Students
http://hdl.handle.net/2268/228365
10.1051/0004-6361/201832836
https://ui.adsabs.harvard.edu/#abs/2018A&A...616A...6S

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