168 research outputs found
In Pursuit of the Least Luminous Galaxies
The dwarf galaxy companions to the Milky Way are unique cosmological
laboratories. With luminosities as low as 10^-7 L_MW, they inhabit the lowest
mass dark matter halos known to host stars and are presently the most direct
tracers of the distribution, mass spectrum, and clustering scale of dark
matter. Their resolved stellar populations also facilitate detailed studies of
their history and mass content. To fully exploit this potential requires a
well-defined census of virtually invisible galaxies to the faintest possible
limits and to the largest possible distances. I review the past and present
impacts of survey astronomy on the census of Milky Way dwarf galaxy companions,
and discuss the future of finding ultra-faint dwarf galaxies around the Milky
Way and beyond in wide-field survey data.Comment: Review article, 20 pages. Accepted to Advances in Astronomy, Dwarf
Galaxy Cosmology issu
Charting Unexplored Dwarf Galaxy Territory With RR Lyrae
Observational bias against finding Milky Way (MW) dwarf galaxies at low
Galactic latitudes (b < 20 deg) and at low surface brightnesses (fainter than
29 mag arcsec^-2, in the V-band) currently limits our understanding of the
faintest limits of the galaxy luminosity function. This paper is a
proof-of-concept that groups of two or more RR Lyrae stars reveal MW dwarf
galaxies at d > 50 kpc in these unmined regions of parameter space, with only
modest contamination from interloper groups when large halo structures are
excluded. For example, a friends-of-friends (FOF) search with a linking length
of 500 pc could reveal dwarf galaxies more luminous than M_V = -3.2 mag and
with surface brightnesses as faint as 31 mag arcsec^-2 (or even fainter,
depending on RR Lyrae specific frequency). Although existing public RR Lyrae
catalogs are highly incomplete at d > 50 kpc and/or include <1% of the MW
halo's volume, a FOF search reveals two known dwarfs (Bootes I and Sextans) and
two dwarf candidate groups possibly worthy of follow-up. PanSTARRS 1 (PS1) may
catalog RR Lyrae to 100 kpc which would include ~15% of predicted MW dwarf
galaxies. Groups of PS1 RR Lyrae should therefore reveal very low surface
brightness and low Galactic latitude dwarfs within its footprint, if they
exist. With sensitivity to RR Lyrae to d >600 kpc, LSST is the only planned
survey that will be both wide-field and deep enough to use RR Lyrae to
definitively measure the Milky Way's dwarf galaxy census to extremely low
surface brightnesses, and through the Galactic plane.Comment: Accepted by A
The Origin and Properties of Intracluster Stars in a Rich Cluster
We use a multi million particle N-body + SPH simulation to follow the
formation of a rich galaxy cluster in a Lambda+CDM cosmology, with the goal of
understanding the origin and properties of intracluster stars. The simulation
includes gas cooling, star formation, the effects of a uniform UVB and feedback
from supernovae. Halos that host galaxies as faint as M_R = -19.0 are resolved
by this simulation, which includes 85% of the total galaxy luminosity in a rich
cluster. We find that the accumulation of intracluster light (ICL) is an
ongoing process, linked to infall and stripping events. The unbound star
fraction increases with time and is 20% at z = 0, consistent with observations
of galaxy clusters. The surface brightness profile of the cD shows an excess
compared to a de Vaucouleur profile near 200 kpc, which is also consistent with
observations. Both massive and small galaxies contribute substantially to the
formation of the ICL, with stars stripped preferentially from the outer parts
of their stellar distributions. Simulated observations of planetary nebulae
(PNe) show significant substructure in velocity space. Despite this, individual
intracluster PNe might be useful mass tracers if more than 5 fields at a range
of radii have measured line-of-sight velocities, where an accurate mass
calculation depends more on the number of fields than the number of PNe
measured per field. However, the orbits of IC stars are more anisotropic than
those of galaxies or dark matter, which leads to a systematic underestimate of
cluster mass relative to that calculated with galaxies, if not accounted for in
dynamical models. Overall, the properties of ICL formed in a hierarchical
scenario are in good agreement with current observations. (Abridged)Comment: Replaced with MNRAS published version. One corrected figure, minor
text changes. MNRAS, 355, 15
Hunting The Most Distant Stars in the Milky Way: Methods and Initial Results
We present a new catalog of 404 M giant candidates found in the UKIRT
Infrared Deep Sky Survey (UKIDSS). The 2,400 deg available in the UKIDSS
Large Area Survey Data Release 8 resolve M giants through a volume four times
larger than that of the entire Two Micron All Sky Survey. Combining
near-infrared photometry with optical photometry and proper motions from the
Sloan Digital Sky Survey yields an M giant candidate catalog with less M dwarf
and quasar contamination than previous searches for similarly distant M giants.
Extensive follow-up spectroscopy of this sample will yield the first map of our
Galaxy's outermost reaches over a large area of sky. Our initial spectroscopic
follow-up of 30 bright candidates yielded the positive identification of
five M giants at distances kpc. Each of these confirmed M giants
have positions and velocities consistent with the Sagittarius stream. The
fainter M giant candidates in our sample have estimated photometric distances
kpc (assuming = 0.0), but require further spectroscopic
verification. The photometric distance estimates extend beyond the Milky Way's
virial radius, and increase by for each 0.5 dex decrease in assumed
. Given the number of M giant candidates, initial selection efficiency,
and volume surveyed, we loosely estimate that at least one additional
Sagittarius-like accretion event could have contributed to the hierarchical
build-up of the Milky Way's outer halo.Comment: 16 pages, 11 figures, emulateapj format. Accepted by A
The Most Distant Stars in the Milky Way
We report on the discovery of the most distant Milky Way (MW) stars known to
date: ULAS J001535.72015549.6 and ULAS J074417.48253233.0. These stars
were selected as M giant candidates based on their infrared and optical colors
and lack of proper motions. We spectroscopically confirmed them as outer halo
giants using the MMT/Red Channel spectrograph. Both stars have large estimated
distances, with ULAS J001535.72015549.6 at kpc and ULAS
J074417.48253233.0 at 238 64 kpc, making them the first MW stars
discovered beyond 200 kpc. ULAS J001535.72015549.6 and ULAS
J074417.48253233.0 are both moving away from the Galactic center at km s and km s, respectively. Using their
distances and kinematics, we considered possible origins such as: tidal
stripping from a dwarf galaxy, ejection from the MW's disk, or membership in an
undetected dwarf galaxy. These M giants, along with two inner halo giants that
were also confirmed during this campaign, are the first to map largely
unexplored regions of our Galaxy's outer halo.Comment: Accepted and in print by ApJL. Seven pages, 2 figure
Dynamical evidence for a strong tidal interaction between the Milky Way and its satellite, Leo V
We present a chemodynamical analysis of the Leo~V dwarf galaxy, based on Keck
II DEIMOS spectra of 8 member stars. We find a systemic velocity for the system
of kms, and barely resolve a
velocity dispersion for the system, with kms, consistent with previous studies of Leo~V. The
poorly resolved dispersion means we are unable to adequately constrain the dark
matter content of Leo~V. We find an average metallicity for the dwarf of
[Fe/H], and measure a significant spread in the iron abundance
of its member stars, with [Fe/H] dex, which cleanly
identifies Leo~V as a dwarf galaxy that has been able to self-enrich its
stellar population through extended star formation. Owing to the tentative
photometric evidence for tidal substructure around Leo~V, we also investigate
whether there is any evidence for tidal stripping or shocking of the system
within its dynamics. We measure a significant velocity gradient across the
system, of kms per
arcmin (or kms~kpc), which points almost directly
toward the Galactic centre. We argue that Leo~V is likely a dwarf on the brink
of dissolution, having just barely survived a past encounter with the centre of
the Milky Way.Comment: 14 pages, 12 figures, accepted for publication in MNRAS. Updated to
include minor revisions from referee proces
An Orphan No Longer? Detection of the Southern Orphan Stream and a Candidate Progenitor
Using a shallow, two-color survey carried out with the Dark Energy Camera, we detect the southern, possibly trailing arm of the Orphan Stream. The stream is reliably detected to a decl. of −38°, bringing the total known length of the Orphan Stream to 108°. We find a slight offset or "S" shape in the stream at δ ≃ −14° that would be consistent with the transition from leading to trailing arms. This coincides with a moderate concentration of 137 ± 25 stars (to g = 21.6) that we consider a possible remnant of the Orphan progenitor. The position of this feature is in agreement with previous predictions
A New Milky Way Companion: Unusual Globular Cluster or Extreme Dwarf Satellite?
We report the discovery of SDSS J1049+5103, an overdensity of resolved blue stars at (α2000, δ2000) = (162343, 51051). This object appears to be an old, metal-poor stellar system at a distance of 45 ± 10 kpc, with a half-light radius of 23 ± 10 pc and an absolute magnitude of MV = -3.0. One star that is likely associated with this Milky Way companion has an SDSS spectrum confirming it as a blue horizontal-branch star at 48 kpc. The color-magnitude diagram of SDSS J1049+5103 contains few, if any, horizontal or red giant branch stars, similar to the anomalously faint globular cluster AM 4. The size and luminosity of SDSS J1049+5103 places it at the intersection of the size-luminosity relationships followed by known globular clusters and by Milky Way dwarf spheroidal galaxies. If SDSS J1049+5103 is a globular cluster, then its properties are consistent with the established trend that the largest radius Galactic globular clusters are all in the outer halo. However, the five known globular clusters with similarly faint absolute magnitudes all have half-mass radii that are smaller than SDSS J1049+5103 by a factor of 5. If it is a dwarf spheroidal galaxy, then it is the faintest yet known by 2 orders of magnitude and is the first example of the ultrafaint dwarfs predicted by some theories. The uncertain nature of this new system underscores the sometimes ambiguous distinction between globular clusters and dwarf spheroidal galaxies. A simple friends-of-friends search for similar, blue, small scale length star clusters detected all known globular clusters and dwarfs closer than 50 kpc in the SDSS area but yielded no other candidates as robust as SDSS J1049+5103
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