497 research outputs found
The Initial Mass Function: Now and Then
We examine whether existing data in clusters, both old and young, and in the
field of the Galactic disk and halo is consistent with a universal slope for
the initial mass function (IMF). The most reasonable statement that can be made
at the current time is that there is no strong evidence to support a claim of
any real variations in this slope. If the IMF slope is universal then this in
itself is remarkable implying that variations in metallicity, gas density or
other environmental factors in the star formation process play no part in
determining the slope of the mass function.Comment: 10 pages, postscript. To appear in "Proceedings 7th Annual
Astrophysics Conference in Maryland-STAR FORMATION NEAR AND FAR
Deep HST V- and I-Band Observations of Two Globular Clusters in the Halo of M31
We present deep (V ~= 27) V- and I-band stellar photometry of G302 and G312,
two globular star clusters in the halo of M31. These data were obtained using
the Hubble Space Telescope's Wide Field/Planetary Camera 2. We find iron
abundances of [Fe/H] = -1.85 +/- 0.12 for G302 and [Fe/H] = -0.56 +/- 0.03 for
G312, consistent with spectroscopic measurements. The color-magnitude diagrams
for each cluster show no evidence for an intermediate-aged population of stars,
or a second parameter effect in the morphology of the horizontal branch. G302
shows no evidence for a color gradient but the inner regions of G312 are bluer
than the outer regions. G312 shows no evidence of ellipticity or an extended
halo of unbound stars. G302 has a projected ellipticity of 0.195 +/- 0.012 with
the projected major axis oriented towards the center of M31. G302 also shows
evidence of an extended asymmetric stellar halo extending to at least twice the
fitted Michie-King tidal radius. The amount of mass beyond the tidal radius of
G302 is consistent with the stellar escape rates which have been predicted by
N-body simulations of globular clusters in the Galactic tidal field.Comment: 29 pages, 21 Postscript figures, uses aaspp4.sty, to be published in
the October 1997 A
The Double Cluster G185 in M31
We have identified a small globular cluster in M31 located approximately 4
arcseconds northwest of the M31 globular cluster G185. While several multiple
globular clusters have been observed in the Magellanic Clouds none have been
found in the Galaxy or in M31. We estimate the probability of such a chance
line-of-sight alignment occuring near the nucleus of M31 to be 0.09 +/- 0.03
and find no obvious indication of any tidal deformation in either cluster, as
would be expected if the clusters were interacting.
Two-dimensional modelling suggests G185 has a King (1966) [AJ, 71, 64]
concentration of c = 1.11 +/- 0.08 while the companion has c = 0.67 +/- 0.17
and is physically smaller than G185. Both objects have integrated dereddened
colors similar to those of Galactic globular clusters.Comment: 22 pages, ~1Mb postscript file
http://www.astro.ubc.ca/~holland/bib.html/
ftp://nukta.astro.ubc.ca/pub/holland/G185_preprint.ps.
A Weak Gravitational Lensing Analysis of Abell 2390
We report on the detection of dark matter in the cluster Abell 2390 using the
weak gravitational distortion of background galaxies. We find that the cluster
light and total mass distributions are quite similar over an angular scale of
\simeq 7^\prime \;(1 \Mpc). The cluster galaxy and mass distributions are
centered on the cluster cD galaxy and exhibit elliptical isocontours in the
central \simeq 2^\prime \; (280 \kpc). The major axis of the ellipticity is
aligned with the direction defined by the cluster cD and a ``straight arc''
located to the northwest. We determined the radial
mass-to-light profile for this cluster and found a constant value of , which is consistent with other published
determinations. We also compared our weak lensing azimuthally averaged radial
mass profile with a spherical mass model proposed by the CNOC group on the
basis of their detailed dynamical study of the cluster. We find good agreement
between the two profiles, although there are weak indications that the CNOC
density profile may be falling more steeply for
(420\kpc).Comment: 14 pages, latex file. Postscript file and one additional figure are
available at
ftp://magicbean.berkeley.edu/pub/squires/a2390/massandlight.ps.g
The White Dwarf Cooling Age of M67
A deep imaging survey covering the entire 23\arcmin diameter of the old
open cluster M67 to has been carried out using the mosaic imager
(UHCam) on the Canada-France-Hawaii Telescope. The cluster color-magnitude
diagram (CMD) can be traced from stars on its giant branch at down
through main sequence stars at least as faint as . Stars this low
in luminosity have masses below . A modest white dwarf (WD)
cooling sequence is also observed commencing slightly fainter than
and, after correction for background galaxy and stellar field contamination,
terminating near . The observed WDs follow quite closely a
theoretical cooling sequence for pure carbon core WDs with
hydrogen-rich atmospheres (DA WDs). The cooling time to an of 14.6 for
such WDs is 4.3 Gyr which we take as the WD cooling age of the cluster. A fit
of a set of isochrones to the cluster CMD indicates a turnoff age of 4.0 Gyr.
The excellent agreement between these results suggests that ages derived from
white dwarf cooling should be considered as reliable as those from other dating
techniques. The WDs currently contribute about 9% of the total cluster mass but
the number seen appears to be somewhat low when compared with the number of
giants observed in the cluster.Comment: 15 pages plus 3 diagrams, minor corrections, Accepted for publication
in the Astrophysical Journal Letters, to be published September 10, 199
Isochrones and Luminosity Functions for Old White Dwarfs
Using a new grid of models of cooling white dwarfs, we calculate isochrones
and luminosity functions in the Johnson-Kron/Cousins and HST filter sets for
systems containing old white dwarfs. These new models incorporate a non-grey
atmosphere which is necessary to properly describe the effects of molecular
opacity at the cool temperatures of old white dwarfs. The various functions
calculated and extensively tabulated and plotted are meant to be as utilitarian
as possible for observers so all results are listed in quantities that
observers will obtain. The tables and plots developed should eventually prove
critical in interpreting the results of HST's Advanced Camera observations of
the oldest white dwarfs in nearby globular clusters, in understanding the
results of searches for old white dwarfs in the Galactic halo, and in
determining ages for star clusters of all ages using white dwarfs. As a
practical application we demonstrate the use of these results by deriving the
white dwarf cooling age of the old Galactic cluster M67.Comment: 7 pages, 8 tables, accepted for publication in the Astrophysical
Journa
On the Radial Distribution of White Dwarfs in the Globular Cluster NGC 6397
We have examined the radial distribution of white dwarfs over a single
HST/ACS field in the nearby globular cluster NGC 6397. In relaxed populations,
such as in a globular cluster, stellar velocity dispersion, and hence radial
distribution, is directly dependent on stellar masses. The progenitors of very
young cluster white dwarfs had a mass of ~0.8 solar masses, while the white
dwarfs themselves have a mass of ~0.5 solar masses. We thus expect young white
dwarfs to have a concentrated radial distribution (like that of their
progenitors) that becomes more extended over several relaxation times to mimic
that of ~0.5 solar mass main-sequence stars. However, we observe young white
dwarfs to have a significantly extended radial distribution compared to both
the most massive main sequence stars in the cluster and also to old white
dwarfs.Comment: 13 pages including 1 table and 3 figures. Accepted for publication in
the MNRAS Letter
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