An empirical model of the Gaia DR3 selection function
Journal
Date Issued
2023
Author(s)
Tristan Cantat-Gaudin
•
Morgan Fouesneau
•
Hans-Walter Rix
•
Anthony G. A. Brown
•
Alfred Castro-Ginard
•
•
David W. Hogg
•
Andrew R. Casey
•
Shourya Khanna
•
Semyeong Oh
•
Adrian M. Price Whelan
•
Vasily Belokurov
•
Andrew K. Saydjari
•
Gregory M. Green
Abstract
Interpreting and modelling astronomical catalogues requires an understanding
of the catalogues' completeness or selection function: objects of what
properties had a chance to end up in the catalogue. Here we set out to
empirically quantify the completeness of the overall Gaia DR3 catalogue. This
task is not straightforward because Gaia is the all-sky optical survey with the
highest angular resolution to date and no consistent ``ground truth'' exists to
allow direct comparisons.
However, well-characterised deeper imaging enables an empirical assessment of
Gaia's $G$-band completeness across parts of the sky.
On this basis, we devised a simple analytical completeness model of Gaia as a
function of the observed $G$ magnitude and position over the sky, which
accounts for both the effects of crowding and the complex Gaia scanning law.
Our model only depends on a single quantity: the median magnitude $M_{10}$ in a
patch of the sky of catalogued sources with
$\texttt{astrometric_matched_transits}$ $\leq 10$. $M_{10}$ reflects elementary
completeness decisions in the Gaia pipeline and is computable from the Gaia DR3
catalogue itself and therefore applicable across the whole sky. We calibrate
our model using the Dark Energy Camera Plane Survey (DECaPS) and test its
predictions against Hubble Space Telescope observations of globular clusters.
We find that our model predicts Gaia's completeness values to a few per cent
across the sky. We make the model available as a part of the $\texttt{gaiasf}$
Python package built and maintained by the GaiaUnlimited project:
$\texttt{https://github.com/gaia-unlimited/gaiaunlimited}$
Volume
669
Start page
A55
Issn Identifier
0004-6361
Rights
open.access
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