An Empirical Proxy for the Second Integral of Motion in Rotating Barred or Tri-axial Potentials [GA]

http://arxiv.org/abs/2105.15116


We identify an effective proxy for the analytically-unknown second integral of motion (I_2) for rotating barred or tri-axial potentials. Planar orbits of a given energy follow a tight sequence in the space of the time-averaged angular momentum and its amplitude of fluctuation. The sequence monotonically traces the main orbital families in the Poincare map, even in the presence of resonant and chaotic orbits. This behavior allows us to define the “Calibrated Angular Momentum,” the average angular momentum normalized by the amplitude of its fluctuation, as a numerical proxy for I_2. It also implies that the amplitude of fluctuation in L_z, previously under-appreciated, contains valuable information. This new proxy allows one to classify orbital families easily and accurately, even for real orbits in N-body simulations of barred galaxies. It is a good diagnostic tool of dynamical systems, and may facilitate the construction of equilibrium models.

Read this paper on arXiv…

Y. Qin and J. Shen
Tue, 1 Jun 21
48/72

Comments: 7 pages, 4 figure. Published on ApJL