138,722 research outputs found
The range of validity of cluster masses and ages derived from broad-band photometry
I analyze the stochastic effects introduced by the sampling of the stellar
initial mass function (SIMF) in the derivation of the individual masses and the
cluster mass function (CMF) from broad-band visible-NIR unresolved photometry.
The classical method of using unweighted UBV photometry to simultaneously
establish ages and extinctions of stellar clusters is found to be unreliable
for clusters older than approx. 30 Ma, even for relatively large cluster
masses. On the other hand, augmenting the filter set to include
longer-wavelength filters and using weights for each filter increases the range
of masses and ages that can be accurately measured with unresolved photometry.
Nevertheless, a relatively large range of masses and ages is found to be
dominated by SIMF sampling effects that render the observed masses useless,
even when using UBVRIJHK photometry.Comment: 6 pages, 5 figures, to appear in IAU Symposium 266 on Star Cluster
Calibration of the photometric G passband for Gaia Data Release 1
Context. On September 2016 the first data from Gaia were released (DR1). The
first release included photometry for over 10^9 sources in the very broad G
system. Aims. To test the correspondence between G magnitudes in DR1 and the
synthetic equivalents derived using spectral energy distributions from observed
and model spectrophotometry. To correct the G passband curve and to measure the
zero point in the Vega system. Methods. I have computed the synthetic G and
Tycho-2 BV photometry for a sample of stars using the Next Generation Spectral
Library (NGSL) and the Hubble Space Telescope (HST) CALSPEC spectroscopic
standards. Results. I have found that the nominal G passband curve is too blue
for the DR1 photometry, as shown by the presence of a color term in the
comparison between observed and synthetic magnitudes. A correction to the
passband applying a power law in lambda with an exponent of 0.783 eliminates
the color term. The corrected passband has a Vega zero point of 0.0700.004
magnitudes.Comment: Four-page letter, accepted for publication in A&
UV Extinction Towards a Quiescent Molecular Cloud in the SMC
Context: The mean UV extinction law for the Small Magellanic Cloud (SMC) is
usually taken as a template for low-metallicity galaxies. However, its current
derivation is based on only five stars, thus placing doubts on its
universality. An increase in the number of targets with measured extinction
laws in the SMC is necessary to determine its possible dependence on parameters
such as metallicity and star-forming activity. Aims: To measure the UV
extinction law for several stars in the quiescent molecular cloud SMC B1-1.
Methods: We obtained HST/STIS slitless UV spectroscopy of a 25"x25" field of
view and we combined it with ground-based NIR and visible photometry of the
stars in the field. The results were processed using the Bayesian photometric
package CHORIZOS to derive the visible-NIR extinction values for each star. The
unextinguished Spectral Energy Distributions (SEDs) obtained in this way were
then used to derive the UV extinction law for the four most extinguished stars.
We also recalculated the visible-NIR extinction for the five SMC stars with
preexisting UV extinction laws. Results: The UV extinction law for four SMC
B1-1 stars within several pc of each other differs significantly from star to
star. The 2175 {\AA} bump is moderately strong in one, weak in two, and absent
in the fourth.Comment: 10 pages, 5 figures, accepted for publication in Astronomy &
Astrophysic
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