# The kinematic signature of the Galactic warp in Gaia DR1 - I. The   Hipparcos subsample

**Authors:** E. Poggio, R. Drimmel, R. L. Smart, A. Spagna, M. G. Lattanzi

arXiv: 1702.04556 · 2017-05-17

## TL;DR

This study investigates the kinematic signature of the Galactic warp using Gaia DR1 and Hipparcos data, finding evidence for warp in nearby stars but not in distant ones, suggesting the warp may be transient or influenced by other phenomena.

## Contribution

The paper develops a model to analyze proper motions of OB stars and applies likelihood analysis to detect warp signatures in Gaia DR1 data, highlighting the warp's possible transient nature.

## Key findings

- Nearby OB stars show warp signatures in proper motions.
- Distant OB stars do not show expected warp kinematics.
- Systematic vertical motions suggest a transient or complex warp behavior.

## Abstract

The mechanism responsible for the warp of our Galaxy, as well as its dynamical nature, continues to remain unknown. With the advent of high precision astrometry, new horizons have been opened for detecting the kinematics associated with the warp and constraining possible warp formation scenarios for the Milky Way. The aim of this contribution is to establish whether the first Gaia data release (DR1) shows significant evidence of the kinematic signature expected from a long-lived Galactic warp in the kinematics of distant OB stars. As the first paper in a series, we present our approach for analyzing the proper motions and apply it to the sub-sample of Hipparcos stars. We select a sample of 989 distant spectroscopically-identified OB stars from the New Reduction of Hipparcos, of which 758 are also in Gaia DR1, covering distances from 0.5 to 3 kpc from the Sun. We develop a model of the spatial distribution and kinematics of the OB stars from which we produce the probability distribution functions of the proper motions, with and without the systematic motions expected from a long-lived warp. A likelihood analysis is used to compare the expectations of the models with the observed proper motions from both Hipparcos and Gaia DR1. We find that the proper motions of the nearby OB stars are consistent with the signature of a warp, while those of the more distant stars (parallax<1 mas) are not. The kinematics of our sample of young OB stars suggests that systematic vertical motions in the disk cannot be explained by a simple model of a stable long-lived warp. The Galactic warp may either be a transient feature, or additional phenomena are acting on the gaseous component of the Milky Way, causing systematic vertical motions that are masking the expected warp signal. A larger and deeper sample of stars with Gaia astrometry will be needed to constrain the dynamical nature of the Galactic warp.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1702.04556/full.md

## References

75 references — full list in the complete paper: https://tomesphere.com/paper/1702.04556/full.md

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Source: https://tomesphere.com/paper/1702.04556