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The Gaia -ESO Survey : Double-, triple-, and quadruple-line spectroscopic binary candidates

Merle, T. ; Van Eck, S. ; Jorissen, A. ; Van Der Swaelmen, M. ; Masseron, T. ; Zwitter, T. ; Hatzidimitriou, D. ; Klutsch, A. ; Pourbaix, D. and Blomme, R. , et al. (2017) In Astronomy and Astrophysics 608.
Abstract

Context. The Gaia-ESO Survey (GES) is a large spectroscopic survey that provides a unique opportunity to study the distribution of spectroscopic multiple systems among different populations of the Galaxy. Aims. Our aim is to detect binarity/multiplicity for stars targeted by the GES from the analysis of the cross-correlation functions (CCFs) of the GES spectra with spectral templates. Methods. We developed a method based on the computation of the CCF successive derivatives to detect multiple peaks and determine their radial velocities, even when the peaks are strongly blended. The parameters of the detection of extrema (doe) code have been optimized for each GES GIRAFFE and UVES setup to maximize detection. The doe code therefore allows... (More)

Context. The Gaia-ESO Survey (GES) is a large spectroscopic survey that provides a unique opportunity to study the distribution of spectroscopic multiple systems among different populations of the Galaxy. Aims. Our aim is to detect binarity/multiplicity for stars targeted by the GES from the analysis of the cross-correlation functions (CCFs) of the GES spectra with spectral templates. Methods. We developed a method based on the computation of the CCF successive derivatives to detect multiple peaks and determine their radial velocities, even when the peaks are strongly blended. The parameters of the detection of extrema (doe) code have been optimized for each GES GIRAFFE and UVES setup to maximize detection. The doe code therefore allows to automatically detect multiple line spectroscopic binaries (SBn, n ≥ 2). Results. We apply this method on the fourth GES internal data release and detect 354 SBn candidates (342 SB2, 11 SB3, and even one SB4), including only nine SBs known in the literature. This implies that about 98% of these SBn candidates are new because of their faint visual magnitude that can reach V = 19. Visual inspection of the SBn candidate spectra reveals that the most probable candidates have indeed a composite spectrum. Among the SB2 candidates, an orbital solution could be computed for two previously unknown binaries: CNAME 06404608+0949173 (known as V642 Mon) in NGC 2264 and CNAME 19013257-0027338 in Berkeley 81 (Be 81). A detailed analysis of the unique SB4 (four peaks in the CCF) reveals that CNAME 08414659-5303449 (HD 74438) in the open cluster IC 2391 is a physically bound stellar quadruple system. The SB candidates belonging to stellar clusters are reviewed in detail to discard false detections. We suggest that atmospheric parameters should not be used for these system components; SB-specific pipelines should be used instead. Conclusions. Our implementation of an automatic detection of spectroscopic binaries within the GES has allowed the efficient discovery of many new multiple systems. With the detection of the SB1 candidates that will be the subject of a forthcoming paper, the study of the statistical and physical properties of the spectroscopic multiple systems will soon be possible for the entire GES sample.

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Contribution to journal
publication status
published
subject
keywords
Binaries: spectroscopic, Globular clusters: general, Methods: data analysis, Open clusters and associations: general, Techniques: radial velocities
in
Astronomy and Astrophysics
volume
608
article number
A95
publisher
EDP Sciences
external identifiers
  • scopus:85038436774
ISSN
0004-6361
DOI
10.1051/0004-6361/201730442
language
English
LU publication?
no
id
995a12ef-d163-4997-9aad-3148bd965151
date added to LUP
2019-05-30 00:09:39
date last changed
2022-04-26 00:58:12
@article{995a12ef-d163-4997-9aad-3148bd965151,
  abstract     = {{<p>Context. The Gaia-ESO Survey (GES) is a large spectroscopic survey that provides a unique opportunity to study the distribution of spectroscopic multiple systems among different populations of the Galaxy. Aims. Our aim is to detect binarity/multiplicity for stars targeted by the GES from the analysis of the cross-correlation functions (CCFs) of the GES spectra with spectral templates. Methods. We developed a method based on the computation of the CCF successive derivatives to detect multiple peaks and determine their radial velocities, even when the peaks are strongly blended. The parameters of the detection of extrema (doe) code have been optimized for each GES GIRAFFE and UVES setup to maximize detection. The doe code therefore allows to automatically detect multiple line spectroscopic binaries (SBn, n ≥ 2). Results. We apply this method on the fourth GES internal data release and detect 354 SBn candidates (342 SB2, 11 SB3, and even one SB4), including only nine SBs known in the literature. This implies that about 98% of these SBn candidates are new because of their faint visual magnitude that can reach V = 19. Visual inspection of the SBn candidate spectra reveals that the most probable candidates have indeed a composite spectrum. Among the SB2 candidates, an orbital solution could be computed for two previously unknown binaries: CNAME 06404608+0949173 (known as V642 Mon) in NGC 2264 and CNAME 19013257-0027338 in Berkeley 81 (Be 81). A detailed analysis of the unique SB4 (four peaks in the CCF) reveals that CNAME 08414659-5303449 (HD 74438) in the open cluster IC 2391 is a physically bound stellar quadruple system. The SB candidates belonging to stellar clusters are reviewed in detail to discard false detections. We suggest that atmospheric parameters should not be used for these system components; SB-specific pipelines should be used instead. Conclusions. Our implementation of an automatic detection of spectroscopic binaries within the GES has allowed the efficient discovery of many new multiple systems. With the detection of the SB1 candidates that will be the subject of a forthcoming paper, the study of the statistical and physical properties of the spectroscopic multiple systems will soon be possible for the entire GES sample.</p>}},
  author       = {{Merle, T. and Van Eck, S. and Jorissen, A. and Van Der Swaelmen, M. and Masseron, T. and Zwitter, T. and Hatzidimitriou, D. and Klutsch, A. and Pourbaix, D. and Blomme, R. and Worley, C. C. and Sacco, G. and Lewis, J. and Abia, C. and Traven, G. and Sordo, R. and Bragaglia, A. and Smiljanic, R. and Pancino, E. and Damiani, F. and Hourihane, A. and Gilmore, G. and Randich, S. and Koposov, S. and Casey, A. and Morbidelli, L. and Franciosini, E. and Magrini, L. and Jofre, P. and Costado, M. T. and Jeffries, R. D. and Bergemann, M. and Lanzafame, A. C. and Bayo, A. and Carraro, G. and Flaccomio, E. and Monaco, L. and Zaggia, S.}},
  issn         = {{0004-6361}},
  keywords     = {{Binaries: spectroscopic; Globular clusters: general; Methods: data analysis; Open clusters and associations: general; Techniques: radial velocities}},
  language     = {{eng}},
  month        = {{12}},
  publisher    = {{EDP Sciences}},
  series       = {{Astronomy and Astrophysics}},
  title        = {{The Gaia -ESO Survey : Double-, triple-, and quadruple-line spectroscopic binary candidates}},
  url          = {{http://dx.doi.org/10.1051/0004-6361/201730442}},
  doi          = {{10.1051/0004-6361/201730442}},
  volume       = {{608}},
  year         = {{2017}},
}