Validation of the Gaia Early Data Release 3 parallax zero-point model with asteroseismology

Abstract

The Gaia Early Data Release 3 (EDR3) provides trigonometric parallaxes for 1.5 billion stars, with reduced systematics compared to Gaia Data Release 2 and reported precisions better by up to a factor of two. New to EDR3 is a tentative model for correcting the parallaxes of magnitude-, position-, and color-dependent systematics for five- and six-parameter astrometric solutions, Z5 and Z6. Using a sample of over 2,000 first-ascent red giant branch stars with asteroseismic parallaxes, I perform an independent check of the Z5 model in a Gaia magnitude range of 9 G 13 and color range of 1.4μ m -1 eff 1.5 μ m -1. This analysis therefore bridges the Gaia team's consistency check of Z5 for G > 13, and indications from independent analysis using Cepheids of a ≈ 15 μ as over-correction for G < 11. I find an over-correction sets in at G 10.8, such that Z5-corrected EDR3 parallaxes are larger than asteroseismic parallaxes by 15 3 μ as. For G 10.8, EDR3 and asteroseismic parallaxes in the Kepler field agree up to a constant consistent with expected spatial variations in EDR3 parallaxes after a linear, color-dependent adjustment. I also infer an average under-estimation of EDR3 parallax uncertainties in the sample of 22 6\%, consistent with the Gaia team's estimates at similar magnitudes and independent analysis using wide binaries. Finally, I extend the Gaia team's parallax spatial covariance model to brighter magnitudes (G < 13) and smaller scales (down to ≈ 0.1), where systematic EDR3 parallax uncertainties are at least ≈ 3-4 μ as.

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