The Great Wave: Evidence of a large-scale vertical corrugation propagating outwards in the Galactic disc

Abstract

We analyse the three-dimensional structure and kinematics of two samples of young stars in the Galactic disc, containing respectively young giants (17\, 000 stars out to heliocentric distances of 7 kpc) and classical Cepheids (3400 stars out to heliocentric distances of 15 kpc). The vertical structure of the two samples exhibit a consistent shape of the Milky Way's warp, whose amplitude reaches 700 pc at a Galactocentric radius R 14 kpc. Moreover, both samples show evidence of a large-scale vertical corrugation on top of the warp with a vertical height of 150-200 pc, extending over a large portion of the Galactic disc between Galactocentric radii R 10-12 kpc in the third Galactic quadrant (galactic longitudes 180 < l < 270) and 12-14 kpc in the second Galactic quadrant (90 < l < 180). Its total length is at least 10 kpc and can possibly reach 20 kpc with the Cepheid sample. The stars in the corrugation exhibit both radial and vertical systematic motions, with Galactocentric radial velocities towards the outer disc of about 10-15 km/s. In the vertical motions, once the warp signature is subtracted, the residuals show a large-scale feature of systematically positive vertical velocities, which is shifted to slightly larger Galactocentric radii with respect to the spatial vertical corrugation (with a phase difference of roughly π/2), indicating an oscillatory behaviour. A comparison of the observed shift with a simple toy model suggests that the corrugation can be interpreted as a wave propagating towards the outer disc. The wave mapped in this work is located at larger heliocentric distances compared to the Radcliffe wave, a 2.7 kpc filament of dense gas clouds close to the Sun, and exhibits a larger coverage of the Galactic disc.

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