Validation of the Bond et al. (2010) SDSS-derived kinematic models for the Milky Way's disk and halo stars with Gaia Data Release 3 proper motion and radial velocity data

Astronomy & Astrophysics Pub Date : 2024-06-05 DOI:10.1051/0004-6361/202449653

Bruno Dom'inguez, Siddharth Chaini, Karlo Mrakovvci'c, Brandon Sallee, vZeljko Ivezi'c

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Abstract

We validate the 2010ApJ...716....1B kinematic models for the Milky Way's disk and halo stars with Gaia Data Release 3 data. Bond et al. constructed models for stellar velocity distributions using stellar radial velocities measured by the Sloan Digital Sky Survey (SDSS) and stellar proper motions derived from SDSS and the Palomar Observatory Sky Survey astrometric measurements. These models describe velocity distributions as functions of position in the Galaxy, with separate models for disk and halo stars that were labeled using SDSS photometric and spectroscopic metallicity measurements. We find that the Bond et al. model predictions are in good agreement with recent measurements of stellar radial velocities and proper motions by the Gaia survey. In particular, the model accurately predicts the skewed non-Gaussian distribution of rotational velocity for disk stars and its vertical gradient, as well as the dispersions for all three velocity components. Additionally, the spatial invariance of velocity ellipsoid for halo stars when expressed in spherical coordinates is also confirmed by Gaia data at galacto-centric radial distances of up to 15 kpc.

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利用盖亚数据第 3 版的适当运动和径向速度数据验证 Bond 等人（2010 年）从 SDSS 导出的银河系星盘和晕星运动模型

Bond等人利用斯隆数字巡天测量（SDSS）测得的恒星径向速度以及SDSS和帕洛玛天文台巡天测量天体测量得出的恒星适当运动，构建了恒星速度分布模型。我们发现，Bond 等人的模型预测与最近盖亚巡天对恒星径向速度和适当运动的测量结果非常吻合。特别是，该模型准确地预测了盘状恒星旋转速度的倾斜非高斯分布及其垂直梯度，以及所有三个速度分量的离散度。此外，用球面坐标表示的晕状恒星速度椭球的空间不变性也得到了星系中心径向距离达15 kpc的Gaia数据的证实。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Astronomy & Astrophysics

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