12 research outputs found
Synthetic photometry for M and K giants and stellar evolution: hydrostatic dust-free model atmospheres and chemical abundances
Based on a grid of hydrostatic spherical COMARCS models for cool stars, we have calculated observable properties of these objects, which will be mainly used in combination with stellar evolution tracks and population synthesis tools. The high-resolution opacity sampling and low-resolution convolved spectra as well as bolometric corrections for a large number of filter systems are made electronically available. We exploit those data to study the effect of mass, C/O ratio and nitrogen abundance on the photometry of K and M giants. Depending on effective temperature, surface gravity and the chosen wavelength ranges, variations of the investigated parameters cause very weak to moderate and, in the case of C/O values close to 1, even strong shifts of the colours. For the usage with stellar evolution calculations, they will be treated as correction factors applied to the results of an interpolation in the main quantities. When we compare the synthetic photometry to observed relations and to data from the Galactic bulge, we find in general a good agreement. Deviations appear for the coolest giants showing pulsations, mass-loss and dust shells, which cannot be described by hydrostatic models
Atmospheric dynamics in carbon-rich Miras. I. Model atmospheres and synthetic line profiles
Atmospheres of evolved AGB stars are heavily affected by pulsation, dust
formation and mass loss, and they can become very extended. Time series of
observed high-resolution spectra proved to be a useful tool to study
atmospheric dynamics throughout the outer layers of these pulsating red giants.
Originating at various depths, different molecular spectral lines observed in
the near-infrared can be used to probe gas velocities there for different
phases during the lightcycle. Dynamic model atmospheres are needed to represent
the complicated structures of Mira variables properly. An important aspect
which should be reproduced by the models is the variation of line profiles due
to the influence of gas velocities. Based on a dynamic model, synthetic spectra
(containing CO and CN lines) were calculated, using an LTE radiative transfer
code that includes velocity effects. It is shown that profiles of lines that
sample different depths qualitatively reproduce the behaviour expected from
observations.Comment: accepted by A&A, 12 pages, 9 figure
Synthetic photometry for carbon-rich giants II. The effects of pulsation and circumstellar dust
By using self-consistent dynamic model atmospheres which simulate
pulsation-enhanced dust-driven winds of AGB stars we studied in detail the
influence of (i) pulsations of the stellar interiors, and (ii) the development
of dusty stellar winds on the spectral appearance of long period variables with
carbon-rich atmospheric chemistry. While the pulsations lead to large-amplitude
photometric variability, the dusty envelopes cause pronounced circumstellar
reddening. Based on one selected dynamical model which is representative of
C-type Mira variables with intermediate mass loss rates, we calculated
synthetic spectra and photometry for standard broad-band filters from the
visual to the near-infrared. Our modelling allows to investigate in detail the
substantial effect of circumstellar dust on the resultant photometry. The
pronounced absorption of amorphous carbon dust grains leads to colour indices
which are significantly redder than the corresponding ones based on hydrostatic
dust-free models. Only if we account for this circumstellar reddening we get
synthetic colours that are comparable to observations of evolved AGB stars. The
photometric variations of the dynamical model were compared to observed
lightcurves of the C-type Mira RU_Vir which appears to be quite similar to the
model. We found good agreement concerning the principal behaviour of the
BVRIJHKL lightcurves and also quantitatively fitting details. The analysed
model is able to reproduce the variations of RU_Vir and other Miras in (J-H)
vs. (H-K) diagrams throughout the light cycle. Contrasting the model photometry
with observational data for a variety of galactic C-rich giants in such
colour-colour diagrams proved that the chosen atmospheric model fits well into
a sequence of objects with increasing mass loss rates, i.e., redder colour
indices.Comment: Accepted for publication in A&
Mid- and Far-Infrared Properties of Dynamical Models of Cabon-Rich . . .
. We have calculated spectral energy distributions and synthetic IRAS colours of carbon-rich long-period variables. On top of dynamical models for the stellar atmosphere and circumstellar envelope which consistently treat the timedependent hydrodynamics, the formation of amorphous carbon grains and grey radiative transfer, frequency-dependent radiative transfer calculations have been carried out in the range between 1 ¯m and 290 ¯m. Calculating the IRAS colours we find that the models lie in regions I (stars without circumstellar shells) and VII (variable stars with carbon-rich circumstellar shells) of the IRAS two colour diagram in accordance with observational results for carbon stars. They form an almost linear sequence (near the black body line) reflecting the different mass loss rates. We compare our results to empirical formulae which link the mass loss rate to the observed flux at 60 ¯m. Furthermore, we have also investigated qualitatively the effects of dust with ff-SiC grains ..