Do all globular clusters within a galaxy share a common history?
Multiple histories could indicate that different processes drive a
galaxy's fundamental development at different times. Juan Carlos Forte
(Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina)
and colleagues used the Gemini Multi-Object Spectrograph (GMOS) to study
over 500 globular clusters in the galaxy M87. Their observations
indeed point to such complexity, revealing multiple episodes of star
formation.
Globular clusters indirectly reveal the star formation history of their
host galaxy, and one of their fundamental properties is the metallicity,
or abundance of elements more massive than helium. Many globular
clusters (GCs) are old, even to the point of challenging other
measurements of the age of the universe, but detailed observations can
show structure in the distribution of their observed colors. The
outstanding question is whether this is evidence of real non-uniformity
in the underlying history and metallicity distribution or merely an
artifact of the detailed relationship between metallicity and observed
color.
Juan Carlos Forte (Consejo Nacional de Investigaciones Científicas y
Técnicas, Argentina) and colleagues observed over 500 GCs of the giant
elliptical galaxy M87 (also known as NGC 4486; Figure 1) and conclude
that their chemical abundance distribution is genuinely bimodal (Figure
2). The effects are strongest among the fainter GCs studied. One
development in this work was to determine the metallicity by considering
all observed wavelength bands simultaneously, rather than rely on a
simplified relationship based on only two bands. The observations in
four optical filters (g, r, i, and z’) were obtained using the Gemini
Multi-Object Spectrograph (GMOS) on Gemini North. The complete results
will be published in the Monthly Notices of the Royal Astronomical Society; advance access and a preprint are available now.
Source: Gemini Observatory
