Abstract
This paper summarises an investigation of chaos in a toy potential which mimics much of the behaviour observed for the more realistic triaxial generalisations of the Dehnen potentials, which have been used to model cuspy triaxial galaxies both with and without a supermassive black hole. The potential is the sum of an anisotropic harmonic oscillator potential, \({\text{V}}_{\text{0}} = \frac{1}{2}\left( {a^2 x^2 + b^2 y^2 + c^2 z^2 } \right)\), and aspherical Plummer potential, \({\text{V}}_{\text{P}} = M_{BH} /\sqrt {r^2 + \varepsilon ^2 } \), with \(r^2 = x^2 + y^2 + z^2\). Attention focuses on three issues related tothe properties of ensembles of chaotic orbits which impact on chaotic mixing and the possibility of constructing self-consistent equilibria:(1) What fraction of the orbits are chaotic? (2) How sensitive are the chaotic orbits, that is, how large are their largest (short time) Lyapunov exponents? (3) To what extent is the motion of chaotic orbits impeded by Arnold webs, that is, how 'sticky' are the chaotic orbits? These questions are explored as functions of the axis ratio a: b: c, black hole mass M BH, softening length ε, and energy E with the aims of understanding how the manifestations of chaos depend onthe shape of the system and why the black hole generates chaos. The simplicity of the model makes it amenable to a perturbative analysis. That it mimics the behaviour of more complicated potentials suggests that much of this behaviour should be generic.
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Kandrup, H.E., Sideris, I.V. Chaos in cuspy triaxial galaxies with a supermassive black hole: a simple toy model. Celestial Mechanics and Dynamical Astronomy 82, 61–81 (2002). https://doi.org/10.1023/A:1013859118402
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DOI: https://doi.org/10.1023/A:1013859118402