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Structure and Rotation of Young Massive Star Clusters in a Simulated Dwarf Starburst

Natalia Lahén, Thorsten Naab, Peter H. Johansson, Bruce Elmegreen, Chia-Yu Hu, Stefanie Walch

2020The Astrophysical Journal30 citationsDOIOpen Access PDF

Abstract

Abstract We analyze the three-dimensional shapes and kinematics of the young star cluster population forming in a high-resolution griffin project simulation of a metal-poor dwarf galaxy starburst. The star clusters, which follow a power-law mass distribution, form from the cold phase interstellar medium with an initial mass function sampled with individual stars down to four solar masses at sub-parsec spatial resolution. Massive stars and their important feedback mechanisms are modeled in detail. The simulated clusters follow a surprisingly tight relation between the specific angular momentum and mass with indications of two sub-populations. Massive clusters ( M cl ≳ 3 × 10 4 M ⊙ ) have the highest specific angular momenta at low ellipticities ( ϵ ∼ 0.2) and show alignment between their shapes and rotation. Lower mass clusters have lower specific angular momenta with larger scatter, show a broader range of elongations, and are typically misaligned indicating that they are not shaped by rotation. The most massive clusters ( M ≳ 10 5 M ⊙ ) accrete gas and protoclusters from a ≲100 pc scale local galactic environment on a t ≲ 10 Myr timescale, inheriting the ambient angular momentum properties. Their two-dimensional kinematic maps show ordered rotation at formation, up to v ∼ 8.5 km s −1 , consistent with observed young massive clusters and old globular clusters, which they might evolve into. The massive clusters have angular momentum parameters λ R ≲ 0.5 and show Gauss–Hermite coefficients h 3 that are anti-correlated with the velocity, indicating asymmetric line-of-sight velocity distributions as a signature of a dissipative formation process.

Topics & Concepts

PhysicsAstrophysicsGlobular clusterAngular momentumStar clusterStarsGalaxyAstronomyStar formationCluster (spacecraft)Initial mass functionGalaxy clusterPopulationDwarf galaxySpecific relative angular momentumSolar massInterstellar mediumRotation (mathematics)Low MassGalaxy formation and evolutionMolecular cloudOpen clusterGalaxy groups and clustersProper motionKinematicsDissipative systemElliptical galaxyTotal angular momentum quantum numberAstrophysics and Star Formation StudiesAstronomy and Astrophysical ResearchGalaxies: Formation, Evolution, Phenomena