A New Implementation of the Schwarzschild Method for Constructing Observationally Driven Dynamical Models of Galaxies of All Morphological Types
Eugene Vasiliev, Monica Valluri
Abstract
Abstract We present Forstand, a new code for constructing dynamical models of galaxies with the Schwarzschild orbit-superposition method. These models are constrained by line-of-sight kinematic observations and applicable to galaxies of all morphological types, including disks and triaxial rotating bars. Our implementation has several novel and improved features, is computationally efficient, and has been made publicly available. Using mock data sets taken from N -body simulations, we demonstrate that the pattern speed of a bar can be recovered with an accuracy of 10–20%, regardless of orientation, if the 3D shape of the galaxy is known or inferred correctly.
Topics & Concepts
PhysicsGalaxyKinematicsSchwarzschild radiusAstrophysicsCode (set theory)Bar (unit)Classical mechanicsElliptical galaxyGalaxy formation and evolutionDynamical frictionAstronomyCosmologyComputational astrophysicsRadio galaxyDisc galaxyStatistical physicsGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchStellar, planetary, and galactic studies