191 research outputs found
Non-LTE neutral carbon spectral line formation in late-type stars
We present non-Local Thermodynamic Equilibrium (non-LTE) calculations for
neutral carbon spectral line formation, carried out for a grid of model
atmospheres covering the range of late-type stars. The results of our detailed
calculations suggest that the carbon non-LTE corrections in these stars are
higher than usually adopted, remaining substantial even at low metallicity. For
the most metal-poor stars in the sample of Akerman et al. (2004), the non-LTE
abundance corrections are of the order of -0.35...-0.45 dex (when neglecting H
collisions). Applying our results to those observations, the apparent [C/O]
upturn seen in their LTE analysis is no longer present, thus revealing no need
to invoke contributions from Pop. III stars to the carbon nucleosynthesis.Comment: 2 pages, 1 figure. To appear in the Proceedings of IAU Symposium 228
"From Li to U: Elemental Tracers of Early Cosmic Evolution", eds. V. Hill, P.
Francois and F. Primas, Cambridge University Press. Replacement with minor
textual correction
Line-blanketed model atmospheres for R Coronae Borealis stars and hydrogen-deficient carbon stars
We have constructed line-blanketed model atmospheres for the hydrogen-deficient and carbon-rich R Coronae Borealis (RCrB) stars, as well as for the similar hydrogen-deficient carbon (HdC) stars and the cool extreme helium (EHe) stars. Improved continuum opacities have been used together with realistic line absorption data for atomic and molecular transitions. The observed dereddened fluxes of R CrB are compared with the calculated model fluxes and found to agree best with a model effective temperature of 6900K, while the infrared flux method gives between 6600 and 6900K, depending on the nature of the flux excess in the J and H bands compared to the model fluxes. The excess may correspond to a recently formed dust cloud close to the star, with a typical temperature around 2000K and a dust mass of ~10^-11^M_{sun}_. The agreement for the ultraviolet flux distribution is also very satisfactory as seen from IUE spectra of RCrB. Theoretical broad band photometry is presented and effective temperatures of RCrB and HdC stars estimated. The constructed models show a significantly steeper temperature gradient compared to previously existing models as a result of the line opacity. Due to the cool surface and high abundance of carbon, molecular bands of e.g. C_2_ and CO are visible in the spectra even at as high effective temperatures as 7000K. Furthermore, the high temperatures encountered at depth explain the observed Hei and CII lines for T_eff_ down to ~7000K. In the inner layers ({tau}_Ross_ > 3) the models show density inversions related to the ionization zone of helium. For certain low gravity models the luminosity exceeds the local Eddington limit and hence gas pressure inversions occur as well, which could be related to the decline events of RCrB stars
Oxygen lines in solar granulation. I. Testing 3D models against new observations with high spatial and spectral resolution
Aims: we seek to provide additional tests of the line formation of
theoretical 3D solar photosphere models. In particular, we set out to test the
spatially-resolved line formation at several viewing angles, from the solar
disk-centre to the limb and focusing on atomic oxygen lines. The purpose of
these tests is to provide additional information on whether the 3D model is
suitable to derive the solar oxygen abundance. We also aim to empirically
constrain the NLTE recipes for neutral hydrogen collisions, using the
spatially-resolved observations of the OI 777 nm lines. Methods: using the
Swedish 1-m Solar Telescope we obtained high-spatial-resolution observations of
five atomic oxygen lines (along with lines for other species) for five
positions on the solar disk. These observations have a high spatial and
spectral resolution, and a continuum intensity contrast up to 9% at 615 nm. The
theoretical line profiles were computed using the 3D model, with a full 3D NLTE
treatment for oxygen and LTE for the other lines. Results: at disk-centre we
find an excellent agreement between predicted and observed line shifts,
strengths, FWHM and asymmetries. At other viewing angles the agreement is also
good, but the smaller continuum intensity contrast makes a quantitative
comparison harder. We use the disk-centre observations we constrain S_H, the
scaling factor for the efficiency of collisions with neutral hydrogen. We find
that S_H=1 provides the best match to the observations. Conclusions: overall
there is a very good agreement between predicted and observed line properties
over the solar granulation. This further reinforces the view that the 3D model
is realistic and a reliable tool to derive the solar oxygen abundance.Comment: 16 pages, 16 figures, accepted for publication in A&
Spectral modelling of the "Super-Chandra" Type Ia SN 2009dc - testing a 2 M_sun white dwarf explosion model and alternatives
Extremely luminous, super-Chandrasekhar (SC) Type Ia Supernovae (SNe Ia) are
as yet an unexplained phenomenon. We analyse a well-observed SN of this class,
SN 2009dc, by modelling its photospheric spectra with a spectral synthesis
code, using the technique of 'Abundance Tomography'. We present spectral models
based on different density profiles, corresponding to different explosion
scenarios, and discuss their consistency. First, we use a density structure of
a simulated explosion of a 2 M_sun rotating C-O white dwarf (WD), which is
often proposed as a possibility to explain SC SNe Ia. Then, we test a density
profile empirically inferred from the evolution of line velocities
(blueshifts). This model may be interpreted as a core-collapse SN with an
ejecta mass ~ 3 M_sun. Finally, we calculate spectra assuming an interaction
scenario. In such a scenario, SN 2009dc would be a standard WD explosion with a
normal intrinsic luminosity, and this luminosity would be augmented by
interaction of the ejecta with a H-/He-poor circumstellar medium. We find that
no model tested easily explains SN 2009dc. With the 2 M_sun WD model, our
abundance analysis predicts small amounts of burning products in the
intermediate-/high-velocity ejecta (v > 9000 km/s). However, in the original
explosion simulations, where the nuclear energy release per unit mass is large,
burned material is present at high v. This contradiction can only be resolved
if asymmetries strongly affect the radiative transfer or if C-O WDs with masses
significantly above 2 M_sun exist. In a core-collapse scenario, low velocities
of Fe-group elements are expected, but the abundance stratification in SN
2009dc seems 'SN Ia-like'. The interaction-based model looks promising, and we
have some speculations on possible progenitor configurations. However,
radiation-hydro simulations will be needed to judge whether this scenario is
realistic at all.Comment: 22 pages, 12 figures, published in MNRAS. V2: several small
corrections (typos, style
The Long-Term Evolution of Double White Dwarf Mergers
In this paper, we present a model for the long-term evolution of the merger
of two unequal mass C/O white dwarfs (WDs). After the dynamical phase of the
merger, magnetic stresses rapidly redistribute angular momentum, leading to
nearly solid-body rotation on a viscous timescale of 1e-4 to 1 yr, long before
significant cooling can occur. Due to heating during the dynamical and viscous
phases, the less massive WD is transformed into a hot, slowly rotating, and
radially extended envelope supported by thermal pressure.
Following the viscous phase of evolution, the maximum temperature near the
envelope base may already be high enough to begin off-center convective
carbon-burning. If not, Kelvin-Helmholtz contraction of the inner region of the
envelope on a thermal timescale of 1e3-1e4 yr compresses the base of the
envelope, again yielding off-center burning. As a result, the long-term
evolution of the merger remnant is similar to that seen in previous
calculations: the burning shell diffuses inwards over ~1e4 yr, eventually
yielding a high-mass O/Ne WD or a collapse to a neutron star. During the
cooling and shell-burning phases, the merger remnant radiates near the
Eddington limit. Given the double WD merger rate of a few per 1000 yr, tens of
these ~1e38 erg/s sources should exist in a Milky Way-type galaxy.
While the end result is similar to that of previous studies, the physical
picture and the dynamical state of the matter in our model differ from previous
work. Furthermore, remaining uncertainties related to the convective structure
near the photosphere and mass loss during the thermal evolution may
significantly affect our conclusions. Thus, future work within the context of
the physical model presented here is required to better address the eventual
fate of double WD mergers, including those for which one or both of the
components is a He WD.Comment: Resubmitted to The Astrophysical Journal following the referee's
report; 11 pages, 8 figures. Changes include an updated thermal evolution
calculation, although our qualitative conclusions remain the sam
Stress and prevalence of hearing problems in the Swedish working population
<p>Abstract</p> <p>Background</p> <p>Current human and experimental studies are indicating an association between stress and hearing problems; however potential risk factors have not been established. Hearing problems are projected to become among the top ten disabilities according to the WHO in the near future. Therefore a better understanding of the relationships between stress and hearing is warranted. Here we describe the prevalence of two common hearing problems, i.e. hearing complaints and tinnitus, in relation to different work-and health-related stressors.</p> <p>Methods</p> <p>A total of 18,734 individuals were invited to participate in the study, out of which 9,756 (52%) enrolled.</p> <p>Results</p> <p>The results demonstrate a clear and mostly linear relationship between higher prevalence of hearing problems (tinnitus or hearing loss or both) and different stressors, e.g. occupational, poorer self-rated health, long-term illness, poorer sleep quality, and higher burnout scores.</p> <p>Conclusions</p> <p>The present study unambiguously demonstrates associations between hearing problems and various stressors that have not been previously described for the auditory system. These findings will open new avenues for future investigations.</p
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