Back to Search Start Over

Radial Migration Does Little for Galactic Disc Thickening

Authors :
Minchev, I.
Famaey, B.
Quillen, A. C.
Dehnen, W.
Martig, M.
Siebert, A.
Publication Year :
2012

Abstract

Non-axisymmetric components, such as spirals and central bars, play a major role in shaping galactic discs. An important aspect of the disc secular evolution driven by these perturbers is the radial migration of stars. It has been suggested recently that migration can populate a thick-disc component from inner-disc stars with high vertical energies. Since this has never been demonstrated in simulations, we study in detail the effect of radial migration on the disc velocity dispersion and disc thickness, by separating simulated stars into migrators and non-migrators. We apply this method to three isolated barred Tree-SPH N-body galaxies with strong radial migration. Contrary to expectations, we find that as stellar samples migrate, on the average, their velocity dispersion change (by as much as 50%) in such a way as to approximately match the non-migrating population at the radius at which they arrive. We show that, in fact, migrators suppress heating in parts of the disc. To confirm the validity of our findings, we also apply our technique to three cosmological re-simulations, which use a completely different simulation scheme and, remarkably, find very similar results. We believe the inability of migration to thicken discs is a fundamental property of internal disc evolution, irrespective of the migration mechanism at work. We explain this with the approximate conservation of the (average) vertical and radial actions rather than the energy. This "action mixing" can be used to constrain the migration rate in the Milky Way: estimates of the average vertical action in observations for different populations of stars should reveal flattening with radius for older groups of stars.<br />Comment: 18 Pages, 13 Figures, A&A Accepted with minor revisions: a paragraph added in Sec.10 discussing the effect of resolution. Higher resolution version can be found at www.ivanminchev.com

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1205.6475
Document Type :
Working Paper
Full Text :
https://doi.org/10.1051/0004-6361/201219714