39,278 research outputs found
Unveiling a Population of X-ray Non-Detected AGN
We define a sample of 27 radio-excess AGN in the Chandra Deep Field North by
selecting galaxies that do not obey the radio/infrared correlation for
radio-quiet AGN and star-forming galaxies. Approximately 60% of these
radio-excess AGN are X-ray undetected in the 2 Ms Chandra catalog, even at
exposures of > 1 Ms; 25% lack even 2-sigma X-ray detections. The absorbing
columns to the faint X-ray-detected objects are 10^22 cm^-2 < N_H < 10^24
cm^-2, i.e., they are obscured but unlikely to be Compton thick. Using a local
sample of radio-selected AGN, we show that a low ratio of X-ray to radio
emission, as seen in the X-ray weakly- and non-detected samples, is correlated
with the viewing angle of the central engine, and therefore with obscuration.
Our technique can explore the proportion of obscured AGN in the distant
Universe; the results reported here for radio-excess objects are consistent
with but at the low end of the overall theoretical predictions for
Compton-thick objects.Comment: Accepted for publication in the Astrophysical Journal, 15 pages, 10
figures, 4 table
Planet Consumption and Stellar Metallicity Enhancements
The evolution of a giant planet within the stellar envelope of a
main-sequence star is investigated as a possible mechanism for enhancing the
stellar metallicities of the parent stars of extrasolar planetary systems.
Three-dimensional hydrodynamical simulations of a planet subject to impacting
stellar matter indicate that the envelope of a Jupiter-like giant planet can be
completely stripped in the outer stellar convection zone of a solar-mass star.
In contrast, Jupiter-like and less massive Saturn-like giant planets are able
to survive through the base of the convection zone of a 1.22 solar-mass star.
Although strongly dependent on details of planetary interior models, partial or
total dissolution of giant planets can result in significant enhancements in
the metallicity of host stars with masses between about 1.0 and 1.3 solar
masses. The implications of these results with regard to planetary orbital
migration are briefly discussed.Comment: 11 pages, 2 figures, accepted for ApJ Letter
3D molecular line formation in dwarf carbon-enhanced metal-poor stars
We present a detailed analysis of the carbon and nitrogen abundances of two
dwarf carbon-enhanced metal-poor (CEMP) stars: SDSS J1349-0229 and SDSS
J0912+0216. We also report the oxygen abundance of SDSS J1349-0229. These stars
are metal-poor, with [Fe/H] < -2.5, and were selected from our ongoing survey
of extremely metal-poor dwarf candidates from the Sloan Digital SkySurvey
(SDSS). The carbon, nitrogen and oxygen abundances rely on molecular lines
which form in the outer layers of the stellar atmosphere. It is known that
convection in metal-poor stars induces very low temperatures which are not
predicted by `classical' 1D stellar atmospheres. To obtain the correct
temperature structure, one needs full 3D hydrodynamical models. Using CO5BOLD
3D hydrodynamical model atmospheres and the Linfor3D line formation code,
molecular lines of CH, NH, OH and C2 were computed, and 3D carbon, nitrogen and
oxygen abundances were determined. The resulting carbon abundances were
compared to abundances derived using atomic CI lines in 1D LTE and NLTE. There
is not a good agreement between the carbon abundances determined from C2 bands
and from the CH band, and molecular lines do not agree with the atomic CI
lines. Although this may be partly due to uncertainties in the transition
probabilities of the molecular bands it certainly has to do with the
temperature structure of the outer layers of the adopted model atmosphere. We
explore the influence of the 3D model properties on the molecular abundance
determination. In particular, the choice of the number of opacity bins used in
the model calculations and its subsequent effects on the temperature structure
and molecular line formation is discussed. (Abridged)Comment: Poster presented at IAU JD 10, Rio de Janeiro, 10-11 August 2009,
published in Memorie della Societa' Astronomica Italiana, Vol. 80 n.3 P.735.
One reference corrected, matches the published versio
Changing perspectives on marijuana use during early adolescence and young adulthood: Evidence from a panel of cross-sectional surveys
Introduction. Prior research has often overlooked potential cohort differences in marijuana
views and use across adolescence and young adulthood. To begin to address this gap, we conduct
an exploratory examination of marijuana views and use among American youth using a panel of
cross-sectional surveys. Method. Findings are based on repeated, cross-sectional data collected
annually from adolescents (ages 12-17; n = 230,452) and young adults (ages 18-21; n = 120,588)
surveyed as part of the National Survey on Drug Use and Health between 2002 and 2014. For
each of the birth years between 1986 and 1996, we combined a series of nationally representative
cross-sections to provide multi-year data strings designed to approximate nationally
representative cohorts. Results. Compared to youth born in the mid-to-late 1980s, youth born in
the mid-1990s reported significantly higher levels of marijuana disapproval during the early
adolescent years (Age 14: 1988 = 64.7%, 1994 = 70.4%) but lower levels of disapproval during
the young adult years (Age 19: 1988 = 32.0%, 1994 = 25.0%; Age 20: 1988 = 27.9%, 1994 =
19.7%). Moreover, the prevalence of marijuana use among youth born in 1994 was significantly
lowerâcompared to youth born in 1988âat age 14 (1988: 11.39%, 1994: 8.19%) and
significantly higher at age 18 (1988: 29.67%, 1994: 34.83%). This pattern held even when
adjusting for potential confounding by demographic changes in the population across the study
period. Conclusions. We see evidence of changes in the perceptions of marijuana use among
youth born during the late twentieth century.2018-01-0
Inelastic light scattering and the excited states of many-electron quantum dots
A consistent calculation of resonant inelastic (Raman) scattering amplitudes
for relatively large quantum dots, which takes account of valence-band mixing,
discrete character of the spectrum in intermediate and final states, and
interference effects, is presented. Raman peaks in charge and spin channels are
compared with multipole strengths and with the density of energy levels in
final states. A qualitative comparison with the available experimental results
is given.Comment: 5 pages, accepted in J. Phys.: Condens. Matte
Solar analogs with and without planets: T trends and galactic evolution
We explore a sample of 148 solar-like stars to search for a possible
correlation between the slopes of the abundance trends versus condensation
temperature (known as the Tc slope) both with stellar parameters and Galactic
orbital parameters in order to understand the nature of the peculiar chemical
signatures of these stars and the possible connection with planet formation. We
find that the Tc slope correlates at a significant level with the stellar age
and the stellar surface gravity. We also find tentative evidence that the Tc
slope correlates with the mean galactocentric distance of the stars (Rmean),
suggesting that stars that originated in the inner Galaxy have fewer refractory
elements relative to the volatile ones. We found that the chemical
peculiarities (small refractory-to-volatile ratio) of planet-hosting stars is
probably a reflection of their older age and their inner Galaxy origin. We
conclude that the stellar age and probably Galactic birth place are key to
establish the abundances of some specific elements.Comment: Proceedings of the GREAT-ITN conference: The Milky Way Unravelled by
Gaia. Will be published in the "EAS Publications Series
The Chemical Compositions of the SRd Variable Stars-- II. WY Andromedae, VW Eridani, and UW Librae
Chemical compositions are derived from high-resolution spectra for three
stars classed as SRd variables in the General Catalogue of Variable Stars.
These stars are shown to be metal-poor supergiants: WY And with [Fe/H] = -1.0,
VW Eri with [Fe/H] = -1.8, and UW Lib with [Fe/H] = -1.2. Their compositions
are identical to within the measurement errors with the compositions of
subdwarfs, subgiants, and less evolved giants of the same FeH. The stars are at
the tip of the first giant branch or in the early stages of evolution along the
asymptotic giant branch (AGB). There is no convincing evidence that these SRd
variables are experiencing thermal pulsing and the third dredge-up on the AGB.
The SRds appear to be the cool limit of the sequence of RV Tauri variables.Comment: 14 pages, 1 figure, 4 table
Extent of pollution in planet-bearing stars
(abridged) Search for planets around main-sequence (MS) stars more massive
than the Sun is hindered by their hot and rapidly spinning atmospheres. This
obstacle has been sidestepped by radial-velocity surveys of those stars on
their post-MS evolutionary track (G sub-giant and giant stars). Preliminary
observational findings suggest a deficiency of short-period hot Jupiters around
the observed post MS stars, although the total fraction of them with known
planets appears to increase with their mass. Here we consider the possibility
that some very close- in gas giants or a population of rocky planets may have
either undergone orbital decay or been engulfed by the expanding envelope of
their intermediate-mass host stars. If such events occur during or shortly
after those stars' main sequence evolution when their convection zone remains
relatively shallow, their surface metallicity can be significantly enhanced by
the consumption of one or more gas giants. We show that stars with enriched
veneer and lower-metallicity interior follow slightly modified evolution tracks
as those with the same high surface and interior metallicity. As an example, we
consider HD149026, a marginal post MS 1.3 Msun star. We suggest that its
observed high (nearly twice solar) metallicity may be confined to the surface
layer as a consequence of pollution by the accretion of either a planet similar
to its known 2.7-day-period Saturn-mass planet, which has a 70 Mearth compact
core, or a population of smaller mass planets with a comparable total amount of
heavy elements. It is shown that an enhancement in surface metallicity leads to
a reduction in effective temperature, in increase in radius and a net decrease
in luminosity. The effects of such an enhancement are not negligible in the
determinations of the planet's radius based on the transit light curves.Comment: 25 pages, 8 figures, submitted to Ap
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