Litcius/Paper detail

New insights into star cluster evolution towards energy equipartition

Václav Pavlík, Enrico Vesperini

2021Monthly Notices of the Royal Astronomical Society Letters25 citationsDOIOpen Access PDF

Abstract

ABSTRACT We present the results of a study aimed at exploring the evolution towards energy equipartition in star cluster models with different initial degrees of anisotropy in the velocity distribution. Our study reveals a number of novel aspects of the cluster dynamics and shows that the rate of evolution towards energy equipartition (i) depends on the initial degree of radial velocity anisotropy – it is more rapid for more radially anisotropic systems; and (ii) differs for the radial and the tangential components of the velocity dispersion. (iii) The outermost regions of the initially isotropic system evolve towards a state of ‘inverted’ energy equipartition in which high-mass stars have a larger velocity dispersion than low-mass stars – this inversion originates from the mass dependence of the tangential velocity dispersion whereas the radial velocity dispersion shows no anomaly. Our results add new fundamental elements to the theoretical framework needed to interpret the wealth of recent and upcoming observational studies of stellar kinematics in globular clusters, and shed further light on the link between the clusters’ internal kinematics, their formation, and evolutionary history.

Topics & Concepts

Equipartition theoremPhysicsVelocity dispersionAstrophysicsGlobular clusterStarsAnisotropyIsotropyStar formationStar clusterMass segregationCluster (spacecraft)Proper motionStellar dynamicsAstronomyMagnetic fieldGalaxyQuantum mechanicsComputer scienceProgramming languageStellar, planetary, and galactic studiesAstrophysics and Star Formation StudiesAstro and Planetary Science