Spatial correlations in the Gaia astrometric solution

Berry Holl; David Hobbs; Lennart Lindegren

doi:10.1017/S1743921309990573

Spatial correlations in the Gaia astrometric solution

Berry Holl, David Hobbs, Lennart Lindegren

Forskningsoutput: Kapitel i bok/rapport/Conference proceeding › Konferenspaper i proceeding › Peer review

Sammanfattning

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 Gala 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 Gala., 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.

Originalspråk	engelska
Titel på värdpublikation	Relativity in Fundamental Astronomy: Dynamics, Reference Frames, and Data Analysis (IAU Symposium)
Förlag	Cambridge University Press
Sidor	320-324
Volym	261
DOI	https://doi.org/10.1017/S1743921309990573
Status	Published - 2010
Evenemang	261st Symposium of the International-Astronomical-Union - Virginia Beach, VA Varaktighet: 2009 apr. 27 → 2009 maj 1

Publikationsserier

Namn
Volym	261
ISSN (tryckt)	1743-9213
ISSN (elektroniskt)	1743-9221

Konferens

Konferens	261st Symposium of the International-Astronomical-Union
Period	2009/04/27 → 2009/05/01

Ämnesklassifikation (UKÄ)

Astronomi, astrofysik och kosmologi

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10.1017/S1743921309990573

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@inproceedings{8900cfa4cc8b4552aea57c21bb04a9a6,

title = "Spatial correlations in the Gaia astrometric solution",

abstract = "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 Gala 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 Gala., 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.",

keywords = "space vehicles, methods: statistical, methods: data analysis, catalogs, Astrometry, reference systems",

author = "Berry Holl and David Hobbs and Lennart Lindegren",

year = "2010",

doi = "10.1017/S1743921309990573",

language = "English",

volume = "261",

publisher = "Cambridge University Press",

pages = "320--324",

booktitle = "Relativity in Fundamental Astronomy: Dynamics, Reference Frames, and Data Analysis (IAU Symposium)",

address = "United Kingdom",

note = "261st Symposium of the International-Astronomical-Union ; Conference date: 27-04-2009 Through 01-05-2009",

}

TY - GEN

T1 - Spatial correlations in the Gaia astrometric solution

AU - Holl, Berry

AU - Hobbs, David

AU - Lindegren, Lennart

PY - 2010

Y1 - 2010

N2 - 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 Gala 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 Gala., 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.

AB - 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 Gala 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 Gala., 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.

KW - space vehicles

KW - methods: statistical

KW - methods: data analysis

KW - catalogs

KW - Astrometry

KW - reference systems

U2 - 10.1017/S1743921309990573

DO - 10.1017/S1743921309990573

M3 - Paper in conference proceeding

VL - 261

SP - 320

EP - 324

BT - Relativity in Fundamental Astronomy: Dynamics, Reference Frames, and Data Analysis (IAU Symposium)

PB - Cambridge University Press

T2 - 261st Symposium of the International-Astronomical-Union

Y2 - 27 April 2009 through 1 May 2009

ER -

Spatial correlations in the Gaia astrometric solution

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