Spectroscopic classification of a complete sample of astrometrically-selected quasar candidates using Gaia DR2

Heintz, K. E.; Fynbo, J. P. U.; Geier, S. J.; Møller, P.; Krogager, J. -K.; Konstantopoulou, C.; de Burgos, A.; Christensen, L.; Steinhardt, C. L.; Milvang-Jensen, B.; Jakobsson, P.; Høg, E.; Arvedlund, B. E. H. K.; Christiansen, C. R.; Hansen, T. B.; Henriksen, P. D.; Kuszon, K. B.; McKenzie, I. B.; Mosekjær, K. A.; Paulsen, M. F. K.; Sukstorf, M. N.; Wilson, S. N.; Ørgaard, S. K. K.
Bibliographical reference

Astronomy and Astrophysics

Advertised on:
12
2020
Number of authors
23
IAC number of authors
1
Citations
5
Refereed citations
4
Description
Here we explore the efficiency and fidelity of a purely astrometric selection of quasars as point sources with zero proper motions in the Gaia data release 2 (DR2). We have built a complete candidate sample including 104 Gaia-DR2 point sources, which are brighter than 20th magnitude in the Gaia G-band within one degree of the north Galactic pole (NGP); all of them have proper motions that are consistent with zero within 2σ uncertainty. In addition to pre-existing spectra, we have secured long-slit spectroscopy of all the remaining candidates and find that all 104 stationary point sources in the field can be classified as either quasars (63) or stars (41). One of the new quasars that we discover is particularly interesting as the line-of-sight to it passes through the disc of a foreground (z = 0.022) galaxy, which imprints both NaD absorption and dust extinction on the quasar spectrum. The selection efficiency of the zero-proper-motion criterion at high Galactic latitudes is thus ≈60%. Based on this complete quasar sample, we examine the basic properties of the underlying quasar population within the imposed limiting magnitude. We find that the surface density of quasars is 20 deg-2 (at G < 20 mag), the redshift distribution peaks at z ∼ 1.5, and only eight systems (13-3+5%) show significant dust reddening. We then explore the selection efficiency of commonly used optical, near-, and mid-infrared quasar identification techniques and find that they are all complete at the 85-90% level compared to the astrometric selection. Finally, we discuss how the astrometric selection can be improved to an efficiency of ≈70% by including an additional cut requiring parallaxes of the candidates to be consistent with zero within 2σ. The selection efficiency will further increase with the release of future, more sensitive astrometric measurements from the Gaia mission. This type of selection, which is purely based on the astrometry of the quasar candidates, is unbiased in terms of colours and intrinsic emission mechanisms of the quasars and thus provides the most complete census of the quasar population within the limiting magnitude of Gaia.
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