187 research outputs found
Oscillator Strengths and Damping Constants for Atomic Lines in the J and H Bands
We have built a line list in the near-infrared J and H bands (1.00-1.34,
1.49-1.80 um) by gathering a series of laboratory and computed line lists.
Oscillator strengths and damping constants were computed or obtained by fitting
the solar spectrum.
The line list presented in this paper is, to our knowledge, the most complete
one now available, and supersedes previous lists.Comment: Accepted, Astrophysical Journal Supplement, tentatively scheduled for
the Sep. 1999 Vol. 124 #1 issue. Text and tables also available at
http://www.iagusp.usp.br/~jorge
Distribution of the retrotransposable element 412 in Drosophila species
Copy numbers of sequences homologous to the Drosophila melanogaster retrotransposable element 412, their dis tribution between the chromosome arms and the chromocenter, and whether they contain full-size copies were
analyzed for 55 species of the Drosophila genus. Element 412 insertion sites were detected on the chromosome
arms of D. melanogaster, Drosophila simulans, and a few species of the obscura group, but the chromocenter was
labeled in almost all species. The presence of element 412 sequences in the majority of species shows that this
element has a long evolutionary history in Drosophilidae, although it may have recently invaded the chromosomes
in some species, such as D. simulans. Differences in copy number between species may be due to population size
or specific endogenous or environmental factors and may follow the worldwide invasion of the species. Putative
full-length copies were detected in the chromocenters of some species with no copies on the chromosome arms,
suggesting that the chromocenter may be a shelter for such copies and not only for deleted ones.info:eu-repo/semantics/publishedVersio
The Chemical Composition and Age of the Metal-Poor Halo Star BD +17^\circ 3248
We have combined new high-resolution spectra obtained with the Hubble Space
Telescope (HST) and ground-based facilities to make a comprehensive new
abundance analysis of the metal-poor, halo star BD +17^\circ 3248. We have
detected the third r-process peak elements osmium, platinum, and (for the first
time in a metal-poor star) gold, elements whose abundances can only be reliably
determined using HST. Our observations illustrate a pattern seen in other
similar halo stars with the abundances of the heavier neutron-capture elements,
including the third r-process peak elements, consistent with a scaled solar
system r-process distribution. The abundances of the lighter neutron-capture
elements, including germanium and silver, fall below that same scaled solar
r-process curve, a result similar to that seen in the ultra-metal-poor star CS
22892--052. A single site with two regimes or sets of conditions, or perhaps
two different sites for the lighter and heavier neutron-capture elements, might
explain the abundance pattern seen in this star. In addition we have derived a
reliable abundance for the radioactive element thorium. We tentatively identify
U II at 3859 A in the spectrum of BD +17^\circ 3248, which makes this the
second detection of uranium in a very metal-poor halo star. Our combined
observations cover the widest range in proton number (from germanium to
uranium) thus far of neutron-capture elements in metal-poor Galactic halo
stars. Employing the thorium and uranium abundances in comparison with each
other and with several stable elements, we determine an average
cosmochronological age for BD +17^\circ 3248 of 13.8 +/- 4 Gyr, consistent with
that found for other similar metal-poor halo stars.Comment: 58 pages, 4 tables, 11 figures; To appear in ApJ Typo correcte
Improved Color-Temperature Relations and Bolometric Corrections for Cool Stars
We present new grids of colors and bolometric corrections for F-K stars
having 4000 K < Teff < 6500 K, 0.0 < log g < 4.5 and -3.0 < [Fe/H] < 0.0. A
companion paper extends these calculations into the M giant regime. Colors are
tabulated for Johnson U-V and B-V; Cousins V-R and V-I; Johnson-Glass V-K, J-K
and H-K; and CIT/CTIO V-K, J-K, H-K and CO. We have developed these
color-temperature (CT) relations by convolving synthetic spectra with
photometric filter-transmission-profiles. The synthetic spectra have been
computed with the SSG spectral synthesis code using MARCS stellar atmosphere
models as input. Both of these codes have been improved substantially,
especially at low temperatures, through the incorporation of new opacity data.
The resulting synthetic colors have been put onto the observational systems by
applying color calibrations derived from models and photometry of field stars
which have Teffs determined by the infrared-flux method. The color calibrations
have zero points and slopes which change most of the original synthetic colors
by less than 0.02 mag and 5%, respectively. The adopted Teff scale (Bell &
Gustafsson 1989) is confirmed by the extraordinary agreement between the
predicted and observed angular diameters of the field stars. We have also
derived empirical CT relations from the field-star photometry. Except for the
coolest dwarfs (Teff < 5000 K), our calibrated, solar-metallicity model colors
are found to match these and other empirical relations quite well. Our
calibrated, 4 Gyr, solar-metallicity isochrone also provides a good match to
color-magnitude diagrams of M67. We regard this as evidence that our calibrated
colors can be applied to many astrophysical problems, including modelling the
integrated light of galaxies. (abridged)Comment: To appear in the March 2000 issue of the Astronomical Journal. 72
pages including 16 embedded postscript figures (one page each) and 6 embedded
postscript tables (18 pages total
Oxygen Gas Phase Abundance Revisited
We present new measurements of the interstellar gas-phase oxygen abundance
along the sight lines towards 19 early-type galactic stars at an average
distance of 2.6 kpc. We derive O {\small I} column densities from {\it
HST}/STIS observations of the weak 1355 \AA intersystem transition. We derive
total hydrogen column densities [N(H {\small I})+2N(H)] using {\it
HST}/STIS observations of \lya and {\it FUSE} observations of molecular
hydrogen. The molecular hydrogen content of these sight lines ranges from
f(H) = 2N(H)/[N(H {\small I})+2N(H)] = 0.03 to 0.47. The average
of 6.3 cm mag with a standard
deviation of 15% is consistent with previous surveys. The mean oxygen abundance
along these sight lines, which probe a wide range of galactic environments in
the distant ISM, is 10 \oh = (1 in the mean). %(1 ). We see no evidence for decreasing
gas-phase oxygen abundance with increasing molecular hydrogen fraction and the
relative constancy of \oh suggests that the component of dust containing the
oxygen is not readily destroyed. We estimate that, if 60% of the dust grains
are resilient against destruction by shocks, the distant interstellar total
oxygen abundance can be reconciliated with the solar value derived from the
most recent measurements %by Holweger and by Allende Prieto, Lambert & Asplund:
of 10 \oh = 517 58 (1 ). We note that the smaller
oxygen abundances derived for the interstellar gas within 500 pc %by Meyer,
Cardelli & Jura or from nearby B star surveys are consistent with a local
elemental deficit.Comment: 9 figures, 37 page
Abundances of Vanadium and Bromine in 3 Cen A: Additional Odd-Z Anomalies
We report abundance excesses of 1.2 and 2.6 dex, respectively, for vanadium
and bromine in the hot, peculiar star 3 Cen A. Abundances for these two odd-Z
elements have not been previously reported for this star. Taken with previous
work, they strengthen the case of the origin of the abundance peculiarities by
diffusion.Comment: 4 Pages, 2 tables, 2 figures; accepted by Astronomy and Astrophysic
The HgMn Binary Star Phi Herculis: Detection and Properties of the Secondary and Revision of the Elemental Abundances of the Primary
Observations of the Mercury-Manganese star Phi Herculis with the Navy
Prototype Optical Interferometer (NPOI) conclusively reveal the previously
unseen companion in this single-lined binary system. The NPOI data were used to
predict a spectral type of A8V for the secondary star Phi Her B. This
prediction was subsequently confirmed by spectroscopic observations obtained at
the Dominion Astrophysical Observatory. Phi Her B is rotating at 50 +/-3
km/sec, in contrast to the 8 km/sec lines of Phi Her A. Recognizing the lines
from the secondary permits one to separate them from those of the primary. The
abundance analysis of Phi Her A shows an abundance pattern similar to those of
other HgMn stars with Al being very underabundant and Sc, Cr, Mn, Zn, Ga, Sr,
Y, Zr, Ba, Ce, and Hg being very overabundant.Comment: Accepted to ApJ, 45 pages, 11 figure
Abundances of 30 elements in 23 metal-poor stars
We report the abundances of 30 elements in 23 metal-poor ([Fe/H] <-1.7)
giants. These are based on 7774 equivalent widths and spectral synthesis of 229
additional lines. Hyperfine splitting is taken into account when appropriate.
Our choice of model atmospheres has the most influence on the accuracy of our
abundances. We consider the effect of different model atmospheres on our
results. In addition to the random errors in Teff, log g, and microturbulent
velocity, there are several sources of systematic error. These include using
Teff determined from FeI lines rather than colors, ignoring NLTE effects on the
FeI/FeII ionization balance, using models with solar [alpha/Fe] ratios and
using Kurucz models with overshooting. Of these, only the use of models with
solar [alpha/Fe] ratios had a negligible effect. However, while the absolute
abundances can change by > 0.10 dex, the relative abundances, especially
between closely allied atoms such as the rare earth group, often show only
small (<0.03 dex) changes. We found that some strong lines of FeI, MnI and CrI
consistently gave lower abundances by ~0.2 dex, a number larger than the quoted
errors in the gf values. After considering a model with depth-dependent
microturbulent velocity and a model with hotter temperatures in the upper
layers, we conclude that the latter did a better job of resolving the problem
and agreeing with observational evidence for the structure of stars. The error
analysis includes the effects of correlation of Teff, log g, and microturbulent
velocity errors, which is crucial for certain element ratios, such as [Mg/Fe].
The abundances presented here are being analyzed and discussed in a separate
series of papers.Comment: 27 pages, 9 figures, Table 2 included separately, to published in
ApJ
Keck-Nirspec Infrared OH Lines: Oxygen Abundances in Metal-Poor Stars Down to [Fe/H] = -2.9
Infrared OH lines at 1.5 - 1.7 um in the H band were obtained with the
NIRSPEC high-resolution spectrograph at the 10m Keck Telescope for a sample of
seven metal-poor stars. Detailed analyses have been carried out, based on
optical high-resolution data obtained with the FEROS spectrograph at ESO.
Stellar parameters were derived by adopting infrared flux method effective
temperatures, trigonometric and/or evolutionary gravities and metallicities
from FeII lines. We obtain that the sample stars with metallicities [Fe/H] <
-2.2 show a mean oxygen abundance [O/Fe] ~ 0.54, for a solar oxygen abundance
of epsilon(O) = 8.87, or [O/Fe] ~ 0.64 if epsilon(O) = 8.77 is assumed.Comment: To be published in ApJ 575 (August 10
A detailed spectropolarimetric analysis of the planet hosting star WASP-12
The knowledge of accurate stellar parameters is paramount in several fields
of stellar astrophysics, particularly in the study of extrasolar planets, where
often the star is the only visible component and therefore used to infer the
planet's fundamental parameters. Another important aspect of the analysis of
planetary systems is the stellar activity and the possible star-planet
interaction. Here we present a self-consistent abundance analysis of the planet
hosting star WASP-12 and a high-precision search for a structured stellar
magnetic field on the basis of spectropolarimetric observations obtained with
the ESPaDOnS spectropolarimeter. Our results show that the star does not have a
structured magnetic field, and that the obtained fundamental parameters are in
good agreement with what was previously published. In addition we derive
improved constraints on the stellar age (1.0-2.65 Gyr), mass (1.23-1.49 M/M0),
and distance (295-465 pc). WASP-12 is an ideal object to look for pollution
signatures in the stellar atmosphere. We analyse the WASP-12 abundances as a
function of the condensation temperature and compare them with those published
by several other authors on planet hosting and non-planet hosting stars. We
find hints of atmospheric pollution in WASP-12's photosphere, but are unable to
reach firm conclusions with our present data. We conclude that a differential
analysis based on WASP-12 twins will probably clarify if an atmospheric
pollution is present, the nature of this pollution and its implications in the
planet formation and evolution. We attempt also the direct detection of the
circumstellar disk through infrared excess, but without success.Comment: 49 pages, 11 figures, Accepted for publication on Ap
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