9 research outputs found
An Analysis of the Shapes of Ultraviolet Extinction Curves. IV. Extinction without Standards
We present a new method for deriving UV-through-IR extinction curves, based
on the use of stellar atmosphere models to provide estimates of the intrinsic
(i.e., unreddened) stellar spectral energy distributions (SEDs), rather than
unreddened (or lightly reddened) standard stars. We show that this
``extinction-without-standards'' technique greatly increases the accuracy of
the derived extinction curves and allows realistic estimations of the
uncertainties. An additional benefit of the technique is that it simultaneously
determines the fundamental properties of the reddened stars themselves, making
the procedure valuable for both stellar and interstellar studies. We
demonstrate how the extinction-without-standards curves make it possible to: 1)
study the uniformity of extinction in localized spatial regions with
unprecedented precision; 2) determine the relationships between different
aspects of curve morphology; 3) produce high quality extinction curves from low
color excess sightlines; and 4) derive reliable extinction curves for mid-late
B stars, thereby increasing spatial coverage and allowing the study of
extinction in open clusters and associations dominated by such stars. The
application of this technique to the available database of UV-through-IR SEDs,
and to future observations, will provide valuable constraints on the nature of
interstellar grains and on the processes which modify them, and will enhance
our ability to remove the multi-wavelength effects of extinction from
astronomical energy distributions.Comment: To appear in the Astronomical Journal (September 2005); 28 pages
including 9 figure
The Evolved Red Stellar Contents of the Sculptor Group Galaxies NGC55, NGC300, and NGC7793
Deep J, H, and K images are used to probe the evolved stellar contents in the
central regions of the Sculptor group galaxies NGC55, NGC300, and NGC7793. The
brightest stars are massive red supergiants (RSGs) with K ~ 15 - 15.5. The peak
RSG brightness is constant to within ~0.5 mag in K, suggesting that NGC55,
NGC300, and NGC7793 are at comparable distances. Comparisons with bright RSGs
in the Magellanic Clouds indicate that the difference in distance modulus with
respect to the LMC is = 7.5. A rich population of asymptotic giant branch (AGB)
stars, which isochrones indicate have ages between 0.1 and 10 Gyr, dominates
the (K, J-K) color-magnitude diagram (CMD) of each galaxy. The detection of
significant numbers of AGB stars with ages near 10 Gyr indicates that the disks
of these galaxies contain an underlying old population. The CMDs and luminosity
functions reveal significant galaxy-to-galaxy variations in stellar content.
Star-forming activity in the central arcmin of NGC300 has been suppressed for
the past Gyr with respect to disk fields at larger radii. Nevertheless,
comparisons between fields within each galaxy indicate that star-forming
activity during intermediate epochs was coherent on spatial scales of a kpc or
more. A large cluster of stars, which isochrones suggest has an age near 100
Myr, is seen in one of the NGC55 fields. The luminosity function of the
brightest stars in this cluster is flat, as expected if a linear
luminosity-core mass relation is present.Comment: 30 pages, including 13 figure
The Disk and Extraplanar Regions of NGC 55
The stellar content of the nearby SB(s)m galaxy NGC 55 is investigated using
images covering the visible and near-infrared wavelength regions. A
well-defined plume, which stellar evolution models suggest contains stars with
masses near the RSG - AGB transition, is detected in CMDs of the disk, and it
is concluded that star formation in the thin disk of NGC 55 has ocurred at a
significant rate for at least the past 0.1 - 0.2 Gyr. The disk also contains a
large population of old (log(t_yr) ~ 10) stars, and it is argued that a stable
disk has been in place in NGC 55 for a significant fraction of the age of the
Universe. At projected distances in excess of 2 kpc off of the disk plane the
brightest AGB stars have ages 10(+3)(-2) Gyr. Thus, despite indications that
dust and gas are present in the envelope surrounding the NGC 55 disk, the AGB
content suggests that recently formed stars do not occur in large numbers in
the extraplanar region. The mean metallicity of extraplanar RGB stars is in
excellent agreement with that measured in the extraplanar HII regions EHR 1 and
2, suggesting that the age-metallicity relation in this part of NGC 55 has been
flat for at least a few Gyr. Finally, the RGB-tip occurs near i' = 23.1 in the
extraplanar region, and a distance modulus of 26.5 is computed from this
feature.Comment: 27 pages of text, 20 postscript figures. Accepted for publication in
the Ap
Extinction Curves, Distances, and Clumpiness of Diffuse Interstellar Dust Clouds
We present CCD photometry in UBVRI of several thousand Galactic field stars
in four large (>1 degree^2) regions centered on diffuse interstellar dust
clouds, commonly referred to as ``cirrus'' clouds (with optical depth A_V less
than unity). Our goal in studying these stars is to investigate the properties
of the cirrus clouds. A comparison of the observed stellar surface density
between on-cloud and off-cloud regions as a function of apparent magnitude in
each of the five bands effectively yields a measure of the extinction through
each cloud. For two of the cirrus clouds, this method is used to derive UBVRI
star counts-based extinction curves, and U-band counts are used to place
constraints on the cloud distance. The color distribution of stars and their
location in (U-B, B-V) and (B-V, V-I) color-color space are analyzed in order
to determine the amount of selective extinction (reddening) caused by the
cirrus. The color excesses, A_lambda-A_V, derived from stellar color histogram
offsets for the four clouds, are better fit by a reddening law that rises
steeply towards short wavelengths [R_V==A_V/E(B-V)<=2] than by the standard law
(R_V=3.1). This may be indicative of a higher-than-average abundance of small
dust grains relative to larger grains in diffuse cirrus clouds. The shape of
the counts-based effective extinction curve and a comparison of different
estimates of the dust optical depth (extinction optical depth derived from
background star counts/colors; emission optical depth derived from far infrared
measurements), are used to measure the degree of clumpiness in clouds. The set
of techniques explored in this paper can be readily adapted to the Sloan
Digital Sky Survey data set in order to carry out a systematic, large-scale
study of cirrus clouds.Comment: 22 pages, 13 figures (postscript, gif, jpg). Accepted for publication
in the Astronomical Journal, scheduled for the May 1999 issue. Full
resolution postscript versions of all figures are available at
http://www.ucolick.org/~arpad
Correcting for the Effects of Interstellar Extinction
This paper addresses the issue of how best to correct astronomical data for
the wavelength-dependent effects of Galactic interstellar extinction. The main
general features of extinction from the IR through the UV are reviewed, along
with the nature of observed spatial variations. The enormous range of
extinction properties found in the Galaxy, particularly in the UV spectral
region, is illustrated. Fortunately, there are some tight constraints on the
wavelength dependence of extinction and some general correlations between
extinction curve shape and interstellar environment. These relationships
provide some guidance for correcting data for the effects of extinction.
Several strategies for dereddening are discussed along with estimates of the
uncertainties inherent in each method. In the Appendix, a new derivation of the
wavelength dependence of an average Galactic extinction curve from the IR
through the UV is presented, along with a new estimate of how this extinction
law varies with the parameter R = A(V)/E(B-V). These curves represent the true
monochromatic wavelength dependence of extinction and, as such, are suitable
for dereddening IR--UV spectrophotometric data of any resolution, and can be
used to derive extinction relations for any photometry system.Comment: To appear in PASP (January 1999) 14 pages including 4 pages of
figures Uses emulateapj style. PASP, in press (January 1999
An Analysis of the Shapes of Interstellar Extinction Curves. V. The IR-Through-UV Curve Morphology
We study the IR-through-UV interstellar extinction curves towards 328
Galactic B and late-O stars. We use a new technique which employs stellar
atmosphere models in lieu of unreddened "standard" stars. This technique is
capable of virtually eliminating spectral mismatch errors in the curves. It
also allows a quantitative assessment of the errors and enables a rigorous
testing of the significance of relationships between various curve parameters,
regardless of whether their uncertainties are correlated. Analysis of the
curves gives the following results: (1) In accord with our previous findings,
the central position of the 2175 A extinction bump is mildly variable, its
width is highly variable, and the two variations are unrelated. (2) Strong
correlations are found among some extinction properties within the UV region,
and within the IR region. (3) With the exception of a few curves with extreme
(i.e., large) values of R(V), the UV and IR portions of Galactic extinction
curves are not correlated with each other. (4) The large sightline-to-sightline
variation seen in our sample implies that any average Galactic extinction curve
will always reflect the biases of its parent sample. (5) The use of an average
curve to deredden a spectral energy distribution (SED) will result in
significant errors, and a realistic error budget for the dereddened SED must
include the observed variance of Galactic curves. While the observed large
sightline-to-sightline variations, and the lack of correlation among the
various features of the curves, make it difficult to meaningfully characterize
average extinction properties, they demonstrate that extinction curves respond
sensitively to local conditions. Thus, each curve contains potentially unique
information about the grains along its sightline.Comment: To appear in the Astrophysical Journal, Part 1, July 1, 2007. Figures
and Tables which will appear only in the electronic version of the Journal
can be obtained via anonymous ftp from ftp://ftp.astronomy.villanova.edu .
After logging in, change directories to "fitz/FMV_EXTINCTION". A README file
describes the various files present in the director
Fundamental Properties and Distances of LMC Eclipsing Binaries: III. EROS 1044
We present results from a detailed analysis of a third eclipsing binary (EB)
system in the Large Magellanic Cloud, EROS 1044 (~B2 IV-V + ~B2 III-IV). Our
study combines the "classical" EB study of light and radial velocity curves
with detailed modeling of the observed spectral energy distribution, and yields
an essentially complete picture of the stellar properties of the system and a
determination of its distance. The observational data exploited include optical
photometry, space-based UV spectroscopy, and UV/optical spectrophotometry. The
advantages of our technique include numerous consistency checks and, in the
case of the distance determinations, the absence of zero point uncertainties
and adjustable parameters. We find the EROS 1044 system to consist of a pair of
normal, mildly-evolved ~21000 K stars, whose derived properties are consistent
with stellar evolution calculations. The distance to the system is 47.5+/-1.8
kpc. We discuss the implications of our results for three EB systems (HV 2274,
HV 982, and EROS 1044) on the general distance to the Large Magellanic Cloud.Comment: 18 pages, 8 figures, accepted for publication in Ap