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Dynamical Modeling of Galaxies and Supermassive Black Holes: Axisymmetry in Triaxial Schwarzschild Orbit Superposition Models

Matthew E. Quenneville, Emily R. Liepold, Chung-Pei Ma

2021The Astrophysical Journal Supplement Series17 citationsDOIOpen Access PDF

Abstract

Abstract We present a detailed analysis of the behavior of the triaxial Schwarzschild orbit superposition method near the axisymmetric limit. Orbit superposition modeling is the primary method used to determine dynamical masses of supermassive black holes ( M BH ) in nearby galaxies; however, prior studies have reported conflicting results when comparing the outcome from axisymmetric orbit codes with that from a triaxial orbit code in the axisymmetric limit. We show that in order to achieve (oblate) axisymmetry in a triaxial code, care needs to be taken to axisymmetrize the short-axis tube orbits and to exclude both the long-axis tube and box orbits from the orbit library. Using up to 12 Gauss–Hermite moments of the line-of-sight velocity distributions as constraints, we demonstrate the effects of orbit types on the best-fit M BH in orbit modeling of the massive elliptical galaxy NGC 1453 reported in Liepold et al. In addition, we verify the efficacy of our updated code on a mock galaxy data set. We identify a subset of slowly precessing quasi-planar orbits for which the typical integration times can be insufficient to fully capture the equilibrium orbital behavior in both axisymmetric and triaxial systems with central black holes. Further investigation is needed for a more reliable treatment of these orbits.

Topics & Concepts

PhysicsOrbit (dynamics)Supermassive black holeSuperposition principleSchwarzschild radiusRotational symmetryCircular orbitGalaxyClassical mechanicsAstrophysicsOrbital eccentricityGravitationAxial symmetrySchwarzschild metricGravitational waveAstronomyOrbital elementsOrbital speedBlack hole (networking)Elliptic orbitIntersection (aeronautics)Dynamical system (definition)Astrophysical Phenomena and ObservationsGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical Research
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