391 research outputs found
IAU (Maser) Symposium 287 Summary
I'm trying to summarize the science communicated via oral presentations and
by posters at the IAU Symposium 287 "Cosmic Masers - from OH to H_0", which
took place from January 29 to February 3, 2012 in Stellenbosch, South Africa.Comment: 12 pages, to be published in Proc. IAU Symp. 287: Cosmic Masers -
from OH to H_0, eds. R. Booth, E. Humphreys, & W. Vlemming
Stellar clusters in the inner Galaxy and their correlation with cold dust emission
Stars are born within dense clumps of giant molecular clouds, constituting
young stellar agglomerates known as embedded clusters, which only evolve into
bound open clusters under special conditions. We statistically study all
embedded clusters (ECs) and open clusters (OCs) known so far in the inner
Galaxy, investigating particularly their interaction with the surrounding
molecular environment and the differences in their evolution. We first compiled
a merged list of 3904 clusters from optical and infrared clusters catalogs in
the literature, including 75 new (mostly embedded) clusters discovered by us in
the GLIMPSE survey. From this list, 695 clusters are within the Galactic range
|l| < 60 deg and |b| < 1.5 deg covered by the ATLASGAL survey, which was used
to search for correlations with submm dust continuum emission tracing dense
molecular gas. We defined an evolutionary sequence of five morphological types:
deeply embedded cluster (EC1), partially embedded cluster (EC2), emerging open
cluster (OC0), OC still associated with a submm clump in the vicinity (OC1),
and OC without correlation with ATLASGAL emission (OC2). Together with this
process, we performed a thorough literature survey of these 695 clusters,
compiling a considerable number of physical and observational properties in a
catalog that is publicly available. We found that an OC defined observationally
as OC0, OC1, or OC2 and confirmed as a real cluster is equivalent to the
physical concept of OC (a bound exposed cluster) for ages in excess of ~16 Myr.
Some observed OCs younger than this limit can actually be unbound associations.
We found that our OC and EC samples are roughly complete up to ~1 kpc and ~1.8
kpc from the Sun, respectively, beyond which the completeness decays
exponentially. Using available age estimates for a few ECs, we derived an upper
limit of 3 Myr for the duration of the embedded phase... (Abridged)Comment: 39 pages, 9 figures. Accepted for publication in A&A on Sept 16,
2013. The catalog will be available at the CDS after official publication of
the articl
High-angular resolution observations of methanol in the infrared dark cloud core G11.11-0.12P1
Recent studies suggest that infrared dark clouds (IRDCs) have the potential
of harboring the earliest stages of massive star formation and indeed evidence
for this is found toward distinct regions within them. We present a study with
the Plateau de Bure Interferometer of a core in the archetypal filamentary IRDC
G11.11-0.12 at few arcsecond resolution to determine its physical and chemical
structure. The data consist of continuum and line observations covering the
C34S 2-1 line and the methanol 2_k-1_k v_t=0 lines at 3mm and the methanol
5_k-4_k v_t =0 lines at 1mm. Our observations show extended emission in the
continuum at 1 and 3 mm. The methanol 2_k-1_k v_t=0 emission presents three
maxima extending over 1 pc scale (when merged with single-dish short-spacing
observations); one of the maxima is spatially coincident with the continuum
emission. The fitting results show enhanced methanol fractional abundance
(~3x10^-8) at the central peak with respect to the other two peaks, where it
decreases by about an order of magnitude (~4-6x10^-9). Evidence of extended 4.5
microns emission, "wings" in the CH3OH 2_k-1_k spectra, and CH3OH abundance
enhancement point to the presence of an outflow in the East-West direction. In
addition, we find a gradient of ~4 km/s in the same direction, which we
interpret as being produced by an outflow(s)-cloud interaction.Comment: Accepted for publication to A&
Exciting Maser Science with New Instruments - the Promise of the EVLA
In the near future, the Expanded Very Large Array (EVLA) will allow surveys
for maser sources with unprecedented sensitivity, spectral coverage and
spectroscopic capabilities. In particular, comprehensive surveys for many maser
species with simultaneous sensitive continuum imaging and absorption studies
will give a comprehensive radio picture of star formation in the Galactic plane
and elsewhere. Very efficient EVLA surveys for H2O megamasers in Active Galacic
Nuclei will be possible to practically arbitrary redshifts.
EVLA and Atacama Large Millimeter Array (ALMA) studies of H2O and SiO masers
will serve as high resolution probes of the innermost envelopes of oxygen-rich
evolved stars and HCN masers of carbon-rich stars.
Farther in the future, the Square Kilometer Array (SKA) promises the
detection of OH gigamasers at all conceivable redshifts and maser astrometry
with unprecedented accuracy.Comment: 10 pages, incl. 4 figures, iaus.cls, to appear the Procedings of IAU
Symp. 242 (Astrophysical masers and their environments) eds. J. Chapman & W.
Baan Replaced version with a few typos correcte
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