SIMBAD references

2010A&A...512A..35P - Astronomy and Astrophysics, volume 512, A35-35 (2010/3-1)

On the fundamental line of galactic and extragalactic globular clusters.


Abstract (from CDS):

In a previous paper, we found that globular clusters in our Galaxy lie close to a line in the (logRe, SBe, logσ) parameter space, with a moderate degree of scatter and remarkable axi-symmetry. This implies that a purely photometric scaling law exists, that can be obtained by projecting this line onto the (logRe, SBe) plane. These photometric quantities are readily available for large samples of clusters, as opposed to stellar velocity dispersion data. We study a sample of 129 Galactic and extragalactic clusters on this photometric plane in the V-band. We search for a linear relation between SBe and logRe and study how the scatter around the best-fit relation is influenced by both age and dynamical environment. We interpret our results in terms of testing the evolutionary versus primordial origin of the fundamental line. We perform a detailed analysis of surface brightness profiles, which allows us to present a catalogue of structural properties without relying on a given dynamical model. We find a linear relation between SBe and logRe, in the form SBe=(5.25±0.44)logRe+(15.58±0.28), where SBe is measured in mag/arcsec2 and Re in parsec. Both young and old clusters follow the scaling law, which has a scatter of approximately 1 mag in SBe. However, young clusters display more of a scatter and a clear trend in this with age, which old clusters do not. This trend becomes tighter if cluster age is measured in units of the cluster half-light relaxation time. Two-body relaxation therefore plays a major role, together with passive stellar population evolution, in shaping the relation between SBe, logRe, and cluster age. We argue that the logRe-SBe relation and hence the fundamental line scaling law does not have a primordial origin at cluster formation, but is rather the result of a combination of stellar evolution and collisional dynamical evolution.

Abstract Copyright:

Journal keyword(s): globular clusters: general - Galaxy: structure

Simbad objects: 156

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