Spatial correlations in the Gaia astrometric solution

Berry Holl; David Hobbs; Lennart Lindegren

doi:10.1017/S1743921309990573

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Accurate characterization of the astrometric errors in the forthcoming Gaia catalogue is essential for making optimal use of the data. Using small-scale numerical simulations of the astrometric solution, we investigate the expected spatial correlation between the astrometric errors of stars as function of their angular separation. Extrapolating to the full-scale solution for the final Gaia catalogue, we find that the expected correlations are generally very small, but could reach some fraction of a percent for angular separations smaller than about one degree. The spatial correlation length is related to the size of the field of view of Gaia, while the maximum correlation coefficient is related to the mean number of stars present in the field at any time. Our scalable simulation tool (AGISLab) makes it possible to characterize the astrometric errors and correlations, e.g., as functions of position and magnitude.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Hobbs, David Holl, Berry Lindegren, Lennart Raison, Frédéric Klioner, Sergei and Butkevich, Alexey 2009. Determining PPN γ with Gaia's astrometric core solution. Proceedings of the International Astronomical Union, Vol. 5, Issue. S261, p. 315.

Lindegren, Lennart 2009. Gaia: Astrometric performance and current status of the project. Proceedings of the International Astronomical Union, Vol. 5, Issue. S261, p. 296.

Holl, B. Lindegren, L. and Hobbs, D. 2010. Characterizing the Astrometric Errors in the Gaia Catalogue. EAS Publications Series, Vol. 45, Issue. , p. 117.

Windmark, F. Lindegren, L. and Hobbs, D. 2011. Using Galactic Cepheids to verify Gaia parallaxes. Astronomy & Astrophysics, Vol. 530, Issue. , p. A76.

Lindegren, L. Lammers, U. Hobbs, D. O’Mullane, W. Bastian, U. and Hernández, J. 2012. The astrometric core solution for theGaiamission. Astronomy & Astrophysics, Vol. 538, Issue. , p. A78.

Holl, B. Lindegren, L. and Hobbs, D. 2012. Error characterization of theGaiaastrometric solution. Astronomy & Astrophysics, Vol. 543, Issue. , p. A15.

Holl, Berry Lindegren, Lennart and Hobbs, David 2012. Astrostatistics and Data Mining. Vol. 2, Issue. , p. 133.

Holl, B. and Lindegren, L. 2012. Error characterization of theGaiaastrometric solution. Astronomy & Astrophysics, Vol. 543, Issue. , p. A14.

Malbet, Fabien Boehm, Céline Krone-Martins, Alberto Amorim, Antonio Anglada-Escudé, Guillem Brandeker, Alexis Courbin, Frédéric Enßlin, Torsten Falcão, Antonio Freese, Katherine Holl, Berry Labadie, Lucas Léger, Alain Mamon, Gary A. McArthur, Barbara Mora, Alcione Shao, Mike Sozzetti, Alessandro Spolyar, Douglas Villaver, Eva Abbas, Ummi Albertus, Conrado Alves, João Barnes, Rory Bonomo, Aldo Stefano Bouy, Hervé Brown, Warren R. Cardoso, Vitor Castellani, Marco Chemin, Laurent Clark, Hamish Correia, Alexandre C. M. Crosta, Mariateresa Crouzier, Antoine Damasso, Mario Darling, Jeremy Davies, Melvyn B. Diaferio, Antonaldo Fortin, Morgane Fridlund, Malcolm Gai, Mario Garcia, Paulo Gnedin, Oleg Goobar, Ariel Gordo, Paulo Goullioud, Renaud Hall, David Hambly, Nigel Harrison, Diana Hobbs, David Holland, Andrew Høg, Erik Jordi, Carme Klioner, Sergei Lançon, Ariane Laskar, Jacques Lattanzi, Mario Le Poncin-Lafitte, Christophe Luri, Xavier Michalik, Daniel de Almeida, André Moitinho Mourão, Ana Moustakas, Leonidas Murray, Neil J. Muterspaugh, Matthew Oertel, Micaela Ostorero, Luisa Portell, Jordi Prost, Jean-Pierre Quirrenbach, Andreas Schneider, Jean Scott, Pat Siebert, Arnaud Silva, Antonio da Silva, Manuel Thébault, Philippe Tomsick, John Traub, Wesley de Val-Borro, Miguel Valluri, Monica Walton, Nicholas A. Watkins, Laura L. White, Glenn Wyrzykowski, Lukasz Wyse, Rosemary and Yamada, Yoshiyuki 2021. Faint objects in motion: the new frontier of high precision astrometry. Experimental Astronomy, Vol. 51, Issue. 3, p. 845.

Article contents

Spatial correlations in the Gaia astrometric solution

Abstract

Keywords

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Spatial correlations in the Gaia astrometric solution

Abstract

Keywords

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests