<i>Gaia</i>Data Release 2

Luri, X.; Brown, A. G. A.; Sarro, L. M.; Arenou, Frédéric; Bailer-Jones, C. A. L.; Castro-Ginard, A.; Bruijne, J. H. J. de; Prusti, T.; Babusiaux, C.; Delgado, Héctor

doi:10.1051/0004-6361/201832964

Cited by 730 publications

(634 citation statements)

References 32 publications

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“…Restricting ourselves to the confirmed SMC members of our extended data set we end up with 5636 stars with radial velocity determinations and proper motions from Gaia DR2. Due to the distance to the SMC (∼60 kpc) and the faintness of the stars in our extended sample (G magnitude between 15 and 17 for 94% of the sample), the parallaxes from the Gaia DR2 astrometric solution do not give a meaningful constraint on the distance (Arenou et al 2018;Lindegren et al 2018;Luri et al 2018). Since we already selected the SMC members with the radial velocity information, there is no need to rely on distance measurements to remove foreground MW stars.…”

Section: General Considerationsmentioning

confidence: 97%

Revealing the tidal scars of the Small Magellanic Cloud

Leo

Carrera

Noel

et al. 2020

Monthly Notices of the Royal Astronomical Society

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Due to their close proximity, the Large and Small Magellanic Clouds (LMC/SMC) provide natural laboratories for understanding how galaxies form and evolve. With the goal of determining the structure and dynamical state of the SMC, we present new spectroscopic data for ∼ 3000 SMC red giant branch stars observed using the AAOmega spectrograph at the Anglo-Australian Telescope. We complement our data with further spectroscopic measurements from previous studies that used the same instrumental configuration as well as proper motions from the Gaia Data Release 2 catalogue. Analysing the photometric and stellar kinematic data, we find that the SMC centre of mass presents a conspicuous offset from the velocity centre of its associated H i gas, suggesting that the SMC gas is likely to be far from dynamical equilibrium. Furthermore, we find evidence that the SMC is currently undergoing tidal disruption by the LMC within 2 kpc of the centre of the SMC, and possibly all the way into the very core. This is revealed by a net outward motion of stars from the SMC centre along the direction towards the LMC and an apparent tangential anisotropy at all radii. The latter is expected if the SMC is undergoing significant tidal stripping, as we demonstrate using a suite of N-body simulations of the SMC/LMC system disrupting around the Milky Way. Our results suggest that dynamical models for the SMC that assume a steady state will need to be revisited.

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Section: General Considerationsmentioning

confidence: 97%

Revealing the tidal scars of the Small Magellanic Cloud

Leo

Carrera

Noel

et al. 2020

Monthly Notices of the Royal Astronomical Society

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“…As noted by Luri et al (2018), using small relative parallax error quality cuts introduces artifical asymmetries, or biases, into a data set, because the parallax error is a function of position on the sky due to the Gaia scanning law's non-uniform sampling of different regions of the sky. This would irreparably bias the study of symmetries over an appreciable extent of the galaxy, as shown in Fig.…”

Section: Data Selection and Completeness Studiesmentioning

confidence: 99%

Probing Axial Symmetry Breaking in the Galaxy with Gaia Data Release 2

Hinkel

Gardner

Yanny

2020

ApJ

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We study a set of solar neighborhood (d < 3 kpc) stars from Gaia Data Release 2 to determine azimuthal star count differences, i.e., left and right of the line from the Galactic center through the sun -and compare these differences north and south. In this companion paper to Gardner et al. (2020), we delineate our procedures to remove false asymmetries from sampling effects, incompleteness, and/or interloper populations, as this is crucial to tests of axisymmetry. Particularly, we have taken care to make appropriate selections of magnitude, color, in-plane Galactocentric radius and Galactic |b| and |z|. We find that requiring parallax determinations of high precision induces sampling biases, so that we eschew such requirements and exclude, e.g., regions around the lines of sight to the Magellanic clouds, along with their mirror-image lines of sight, to ensure well-matched data sets. After making conservative cuts, we demonstrate the existence of azimuthal asymmetries, and find differences in those, north and south. These asymmetries give key insights into the nature and origins of the perturbations on Galactic matter, allowing us to assess the relative influence of the Magellanic Clouds (LMC & SMC), the Galactic bar, and other masses on the Galactic mass distribution, as described in Gardner et al. (2020). The asymmetry's radial dependence reveals variations that we attribute to the Galactic bar, and it changes sign at a radius of (0.95 ± 0.03)R 0 , with R 0 the Sun-Galactic-Center (GC) distance, to give us the first direct assessment of the outer Lindblad resonant radius.

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“…Here and throughout the paper we use the value of −0.029 mas derived by the Gaia-DR2 team (Lindegren et al 2018). 2 We have added quadratically systematic errors of 0.1 mas for parallax and 0.1 mas yr −1 for proper motions (Luri et al 2018). a radius of 2 .3 of V838 Mon, we find only one candidate in the Gaia DR2 catalog, star 3107789583219504000, which is 6 east of V838 Mon.…”

Section: The Cluster Of V838 Monmentioning

confidence: 99%

SiO maser astrometry of the red transient V838 Monocerotis

Ortiz-León

Menten

Kamiński

et al. 2020

A&A

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We present multi-epoch observations with the VLBA of SiO maser emission in the v = 1, J = 1 − 0 transition at 43 GHz from the remnant of the red nova V838 Mon. We model the positions of maser spots to derive a parallax of 0.166 ± 0.060 mas. Combining this parallax with other distance information results in a distance of 5.6 ± 0.5 kpc, which agrees with an independent geometric distance of 6.1 ± 0.6 kpc from modeling polarimetry images of V838 Mon's light echo. Combining these results, and including a weakly constraining Gaia DR2 parallax, yields a best estimate of distance of 5.9 ± 0.4 kpc. The maser spots are located close to the peaks of continuum at ∼225 GHz and SiO J=5-4 thermal emission detected with ALMA. The proper motion of V838 Mon confirms its membership in a small open cluster in the Outer spiral arm of the Milky Way.

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GaiaData Release 2

Cited by 730 publications

References 32 publications

Revealing the tidal scars of the Small Magellanic Cloud

Revealing the tidal scars of the Small Magellanic Cloud

Probing Axial Symmetry Breaking in the Galaxy with Gaia Data Release 2

SiO maser astrometry of the red transient V838 Monocerotis

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