A new code for orbit analysis and Schwarzschild modelling of triaxial stellar systems

TL;DR

This paper introduces SMILE, a new software tool for orbit analysis and Schwarzschild modelling of triaxial stellar systems, including novel variants that improve density representation accuracy.

Contribution

The paper presents a new software, SMILE, and two innovative Schwarzschild modelling variants that enhance density representation and equilibrium model construction.

Findings

SMILE effectively analyzes 2D and 3D galactic models.

New modelling variants accurately reproduce density distributions.

All methods successfully create equilibrium models in tests.

Abstract

We review the methods used to study the orbital structure and chaotic properties of various galactic models and to construct self-consistent equilibrium solutions by Schwarzschild's orbit superposition technique. These methods are implemented in a new publicly available software tool, SMILE, which is intended to be a convenient and interactive instrument for studying a variety of 2D and 3D models, including arbitrary potentials represented by a basis-set expansion, a spherical-harmonic expansion with coefficients being smooth functions of radius (splines), or a set of fixed point masses. We also propose two new variants of Schwarzschild modelling, in which the density of each orbit is represented by the coefficients of the basis-set or spline spherical-harmonic expansion, and the orbit weights are assigned in such a way as to reproduce the coefficients of the underlying density model. We explore the accuracy of these general-purpose potential expansions and show that they may be efficiently used to approximate a wide range of analytic density models and serve as smooth representations of discrete particle sets (e.g. snapshots from an N-body simulation), for instance, for the purpose of orbit analysis of the snapshot. For the variants of Schwarzschild modelling, we use two test cases - a triaxial Dehnen model containing a central black hole, and a model re-created from an N-body snapshot obtained by a cold collapse. These tests demonstrate that all modelling approaches are capable of creating equilibrium models.