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Main Authors: Fiteni, Karl, De Rijcke, Sven, Debattista, Victor P., Caruana, Joseph
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2403.12233
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author Fiteni, Karl
De Rijcke, Sven
Debattista, Victor P.
Caruana, Joseph
author_facet Fiteni, Karl
De Rijcke, Sven
Debattista, Victor P.
Caruana, Joseph
contents It is well established that stellar discs are destabilized by sharp features in their phase space, driving recurrent spiral modes. We explore the extent to which surface-density breaks in disc galaxies - which represent sharp changes in the gradient of the disc density - drive new spiral modes. We employ linear perturbation theory to investigate how disc breaks alter the eigenmode spectrum of an otherwise pure exponential disc. We find that the presence of a density break gives rise to a set of new, vigorously growing, modes. For a given multiplicity, these edge modes occur in pairs, with closely separated resonances between each pair. The growth rate of edge modes decreases when the break is weakened or moved outward to lower-density regions of the disc. Both down- and up-bending profiles excite edge modes, whose origin can be best understood via the gravitational torques they exert on the underlying disc. When the profile is down-bending (Type II) the faster growing mode is the inner one while in the up-bending (Type III) case the outer mode is faster growing. In both cases the faster growing mode has a corotation almost coincident with the break. We show that the torques of the edge modes tend to smoothen the break.
format Preprint
id arxiv_https___arxiv_org_abs_2403_12233
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The role of density breaks in driving spiral structure in disc galaxies
Fiteni, Karl
De Rijcke, Sven
Debattista, Victor P.
Caruana, Joseph
Astrophysics of Galaxies
It is well established that stellar discs are destabilized by sharp features in their phase space, driving recurrent spiral modes. We explore the extent to which surface-density breaks in disc galaxies - which represent sharp changes in the gradient of the disc density - drive new spiral modes. We employ linear perturbation theory to investigate how disc breaks alter the eigenmode spectrum of an otherwise pure exponential disc. We find that the presence of a density break gives rise to a set of new, vigorously growing, modes. For a given multiplicity, these edge modes occur in pairs, with closely separated resonances between each pair. The growth rate of edge modes decreases when the break is weakened or moved outward to lower-density regions of the disc. Both down- and up-bending profiles excite edge modes, whose origin can be best understood via the gravitational torques they exert on the underlying disc. When the profile is down-bending (Type II) the faster growing mode is the inner one while in the up-bending (Type III) case the outer mode is faster growing. In both cases the faster growing mode has a corotation almost coincident with the break. We show that the torques of the edge modes tend to smoothen the break.
title The role of density breaks in driving spiral structure in disc galaxies
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2403.12233