A VLBA Trigonometric Parallax for RR Aql and the Mira PL Relation

Abstract

We report VLBA observations of 22 GHz H2O and 43 GHz SiO masers toward the Mira variable RR Aql. By fitting the SiO maser emission to a circular ring, we estimate the absolute stellar position of RR Aql and find agreement with Gaia astrometry to within the joint uncertainty of ≈1 mas. Using the maser astrometry we measure a stellar parallax of 2.44 0.07 mas, corresponding to a distance of 410+12-11 pc. The maser parallax deviates significantly from the Gaia EDR3 parallax of 1.95 0.11 mas, indicating a 3.8σ tension between radio and optical measurements. This tension is most likely caused by optical photo-center variations limiting the Gaia astrometric accuracy for this Mira variable. Combining infrared magnitudes with parallaxes for RR Aql and other Miras, we fit a period-luminosity relation using a Bayesian approach with MCMC sampling and a strong prior for the slope of -3.60 0.30 from the LMC. We find a K-band zero-point (defined at logP(days) = 2.30) of -6.79 0.15 mag using VLBI parallaxes and -7.08 0.29 mag using Gaia parallaxes. The Gaia zero-point is statistically consistent with the more accurate VLBI value.

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