Abstract
We introduce a new class of 2-D mass models, whose potentials are of Stackel form in elliptic coordinates. Our model galaxies have two separate strong cusps that form double nuclei. The potential and surface density distributions are locally axisymmetric near the nuclei and become highly non-axisymmetric outside the nucleus. The surface density diverges toward the cuspy nuclei with the law �/ r 2 . Our model is sustained by four general types of regular orbits: butterfly, nucleuphilic banana, horseshoe and aligned loop orbits. Horseshoes and nucleuphilic bananas support the existence of cuspy regions. Butterflies and aligned loops control the non-axisymmetric shape of outer regions. Without any need for central black holes, our distributed mass models resemble the nuclei of M31 and NGC4486B. It is also shown that the self-gravity of the stellar disc can prevent the double nucleus to collapse.
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More From: Monthly Notices of the Royal Astronomical Society
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