# Migration and kinematics in growing disc galaxies with thin and thick   discs

**Authors:** Michael Aumer, James Binney, Ralph Sch\"onrich

arXiv: 1706.04042 · 2017-06-14

## TL;DR

This study uses N-body simulations to analyze how disc heating and radial migration in growing disc galaxies with thin and thick discs compare to observations, revealing the impact of thick discs on galaxy dynamics and migration limits.

## Contribution

It introduces models of growing disc galaxies with thick and thin discs that match observational constraints and explore the effects of thick discs on migration and kinematics.

## Key findings

- Galaxies with non-axisymmetric structures reproduce observed disc heating and migration.
- Thick discs suppress non-axisymmetries, requiring higher baryonic-to-dark matter ratios.
- Models favor baryon-dominated regions around the Solar radius, consistent with Milky Way data.

## Abstract

We analyse disc heating and radial migration in N-body models of growing disc galaxies with thick and thin discs. Similar to thin-disc-only models, galaxies with appropriate non-axisymmetric structures reproduce observational constraints on radial disc heating in and migration to the Solar Neighbourhood (Snhd). The presence of thick discs can suppress non-axisymmetries and thus higher baryonic-to-dark matter fractions are required than in models that only have a thin disc. Models that are baryon-dominated to roughly the Solar radius R_0 are favoured, in agreement with data for the Milky Way. For inside-out growing discs, today's thick-disc stars at R_0 are dominated by outwards migrators. Whether outwards migrators are vertically hotter than non-migrators depends on the radial gradient of the thick disc vertical velocity dispersion. There is an effective upper boundary in angular momentum that thick disc stars born in the centre of a galaxy can reach by migration, which explains the fading of the high-alpha sequence outside R_0. Our models compare well to Snhd kinematics from RAVE-TGAS. For such comparisons it is important to take into account the azimuthal variation of kinematics at R ~ R_0 and biases from survey selection functions. The vertical heating of thin disc stars by giant molecular clouds is only mildly affected by the presence of thick discs. Our models predict higher vertical velocity dispersions for the oldest stars than found in the Snhd age-velocity dispersion relation, possibly because of measurement uncertainties or an underestimation of the number of old cold stars in our models.

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/1706.04042/full.md

## References

71 references — full list in the complete paper: https://tomesphere.com/paper/1706.04042/full.md

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Source: https://tomesphere.com/paper/1706.04042