The Population of Galactic Planetary Nebulae: a Study of Distance Scales and Central Stars Based on the Second Gaia Release

Letizia Stanghellini,Beatrice Bucciarelli,Mario G Lattanzi,Roberto Morbidelli

doi:10.3847/1538-4357/ab59e4

Letizia Stanghellini, Beatrice Bucciarelli + Show 2 more

Open Access

https://doi.org/10.3847/1538-4357/ab59e4

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Abstract

Abstract We matched the astrometry of central stars (CSs) of spectroscopically confirmed Galactic planetary nebulae (PNe) with DR2 Gaia parallaxes (p), finding 430 targets in common with p > 0 and ∣ σ p / p ∣ < 1 . A catalog of PNe whose CSs have DR2 Gaia parallaxes is presented in Table 1. We compared DR2 parallaxes with those in the literature, finding good correlation between the two samples. We used PNe parallaxes to calibrate the Galactic PN distance scale. Restricting the sample to objects with 20% parallax accuracy, we derive the distance scale log ( R pc ) = − ( 0.226 ± 0.0155 ) × log ( S H β ) − ( 3.920 ± 0.215 ) , which represents a notable improvement with respect to previous ones. We found that the ionized mass versus optical thickness distance scale for Galactic PNe is not as constrained by the Gaia calibrators, but gives important insight into the nature of the PNe, and is essential to define the domain for our distance scale application. We placed the CSs whose distance has been determined directly by parallax on the HR diagram, and found that their location on the post-asymptotic-giant-branch (AGB) H-burning evolutionary tracks is typical for post-AGB stars.

Highlights

Planetary nebulae are essential probes of stellar evolution, being the gaseous and dusty remnant of asymptotic giant branch (AGB) evolution
We found that the ionized mass vs. optical thickness distance scale for Galactic planetary nebulae (PNe) is not as well constrained by the Gaia calibrators, but gives important insight on the nature of the PNe, and is essential to define the domain for our distance scale application
The rest of the Galactic PN distances have always been estimated through distance scales (e.g., Daub 1982; Cahn et al 1992, hereafter CKS; Stanghellini et al 2008, hereafter SSV; Frew et al 2016, hereafter F16), where a few PNe with known distances have been used to constrain a physical relation between pairs of PN physical parameters, one of which to be distance-dependent

Summary

Introduction

Planetary nebulae are essential probes of stellar evolution, being the gaseous and dusty remnant of asymptotic giant branch (AGB) evolution. The release of the second Gaia catalog (DR2) has prompted us to study the parallaxes p of CSs of spectroscopically-confirmed PNe, and to review the most widely used PN distance scales using Gaia parallaxes as calibrators. Planetary nebula catalogs and Gaia parallaxes have been matched by other Authors since the DR2 release: The Gaia Collaboration (2018), in the context of showing HR diagrams with Gaia targets, has examined a selection of a few CSs of PNe on the stellar evolutionary diagram, filling the evolutionary gap between AGB and WD stars. Gonzalez-Santamarıa et al (2019) have used Gaia parallaxes to estimate physical radii and expansion ages of PNe. The mail goal of the present study is to use DR2 central star parallaxes to calibrate the Galactic PN distance scale.

The Galactic PN sample with reliable parallaxes from Gaia

Galactic PN distance scale calibrated with Gaia parallaxes

Findings

Discussion and outlook