17 research outputs found
The Spin of M87 as measured from the Rotation of its Globular Clusters
We revisit the kinematical data for 204 globular clusters in the halo of M87.
Beyond 3 r_eff along the major axis of the galaxy light, these globular
clusters exhibit substantial rotation (~ 300 +/- 70 km/s) that translates into
an equally substantial spin (lambda ~ 0.18). The present appearance of M87 is
most likely the product of a single major merger, since this event is best able
to account for so sizable a spin. A rotation this large makes improbable any
significant accretion of material after this merger, since that would have
diluted the rotation signature. We see weak evidence for a difference between
the kinematics of the metal-poor and metal-rich population, in the sense that
the metal-poor globular clusters appear to dominate the rotation. If, as we
suspect, the last major merger event of M87 was mainly dissipationless and did
not trigger the formation of a large number of globular clusters, the kinematic
difference between the two could reflect their orbital properties in the
progenitor galaxies; these differences would be compatible with these
progenitors having formed in dissipational mergers. However, to put strong
kinematic constraints on the origin of the globular clusters themselves is
difficult, given the complex history of the galaxy and its last dominant merger
event.Comment: 20 pages (AAS two column style, including 1 table and 7 figures)
accepted in the AJ (November issue), also available at
http://www.ucolick.org/~mkissler