Galactic oscillations |
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Authors: | R. H. Miller B. F. Smith |
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Affiliation: | (1) Department of Astronomy and Astrophysics, University of Chicago, USA;(2) Theoretical Studies Branch, NASA Ames Research Center, USA |
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Abstract: | A stable galaxy, if excited above its ground state, oscillates about that ground state. If it is reasonably robust, it can support oscillations of large amplitude. Normal mode oscillations, with surprisingly large amplitudes, have been seen in numerical experiments. Observational evidence shows that real galaxies also oscillate. Galaxies ring like a bell in the experiments, and ringing continues undamped long after initial transients have died out. Their total kinetic energy oscillates with an amplitude as large as 10% of the mean. A fundamental mode dominates. It is an homologous expansion/contraction of the entire galaxy (no nodes). Inward or outward velocities due to this mode are sufficiently large in the outer reaches of a galaxy to account for kinematic warps in observed velocity fields. A second spherically symmetrical mode has one node and is important near the center of the galaxy. It may be the driving force behind bulges in spiral galaxies. Two other normal modes have been identified as well. This appears to be the first experimental demonstration of normal mode oscillations within stable galaxy models. |
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Keywords: | Galaxies: internal motions galaxies: structure galaxies: nuclei stars: stellar dynamics |
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