10 research outputs found
NSCC -- A New Scheme of Classification of C-rich Stars Devised from Optical and Infrared Observations
A new classification system for carbon-rich stars is presented based on an
analysis of 51 AGB carbon stars through the most relevant classifying indices
available. The extension incorporated, that also represents the major advantage
of this new system, is the combination of the usual optical indices that
describe the photospheres of the objects, with new infrared ones, which allow
an interpretation of the circumstellar environment of the carbon-rich stars.
This new system is presented with the usual spectral subclasses and -, j-,
MS- and temperature indices, and also with the new SiC- (SiC/C.A. abundance
estimation) and - (opacity) indices. The values for the infrared indices
were carried out through a Monte Carlo simulation of the radiative transfer in
the circumstellar envelopes of the stars. The full set of indices, when applied
to our sample, resulted in a more efficient system of classification, since an
examination in a wide spectral range allows us to obtain a complete scenario
for carbon stars
Observational Constraints on Interstellar Grain Alignment
We present new multicolor photo-polarimetry of stars behind the Southern
Coalsack. Analyzed together with multiband polarization data from the
literature, probing the Chamaeleon I, Musca, rho Opiuchus, R CrA and Taurus
clouds, we show that the wavelength of maximum polarization (lambda_max) is
linearly correlated with the radiation environment of the grains. Using
Far-Infrared emission data, we show that the large scatter seen in previous
studies of lambda_max as a function of A_V is primarily due to line of sight
effects causing some A_V measurements to not be a good tracer of the extinction
(radiation field strength) seen by the grains being probed. The derived slopes
in lambda_max vs. A_V, for the individual clouds, are consistent with a common
value, while the zero intercepts scale with the average values of the ratios of
total-to-selective extinction (R_V) for the individual clouds. Within each
cloud we do not find direct correlations between lambda_max and R_V. The
positive slope in consistent with recent developments in theory and indicating
alignment driven by the radiation field. The present data cannot conclusively
differentiate between direct radiative torques and alignment driven by H_2
formation. However, the small values of lambda_max(A_V=0), seen in several
clouds, suggest a role for the latter, at least at the cloud surfaces. The
scatter in the lambda_max vs. A_V relation is found to be associated with the
characteristics of the embedded Young Stellar Objects (YSO) in the clouds. We
propose that this is partially due to locally increased plasma damping of the
grain rotation caused by X-rays from the YSOs.Comment: Accepted for publication in the Astrophysical Journa
Optical polarization and near IR photometry of the proto-planetary nebula Hen 3-1475
We present BVRI CCD aperture polarization and near-infrared photometry of the
proto-planetary nebula Hen 3-1475. Its intrinsic polarization is high and shows
a strong spectral dependence. The position angles in all bands are
perpendicular to the axis of the observed bipolar structure. A Monte Carlo code
is used to model the intrinsic polarization of \hhe. Using disk dimensions and
other constraints suggested by previous works, we are able to reproduce the
observations with an optically thick disk composed by grains with a power-law
size distribution ranging from 0.06 to 0.22 um. We also reliably estimate the
foreground polarization from hundreds of stars contained in the CCD images. It
is parallel to the intrinsic polarization of Hen 3-1475. Possible implications
of this result are discussed. From IR observations, we estimate a interstellar
reddening, A(V), of about 3.2.Comment: ApJ accepted, 16 pages, 6 figure
Dust in the Small Magellanic Cloud: Interstellar Polarization and Extinction
To elucidate the dust properties in the SMC we have for the first time
measured linear polarization in five colors in the optical region of the
spectrum for a sample of reddened stars. For two of these stars, for which
there were no existing UV spectrophotometric measurements, but for which we
measured a relatively large polarization, we have also obtained data from the
International Ultraviolet Explorer (IUE) in order to study the extinction. The
main results are: (1) the wavelength of maximum polarization, ,
in the SMC is typically smaller than that in the Galaxy; (2) however, AZV 456,
which shows the UV extinction bump, has a typical of that in
the Galaxy, its polarization curve is narrower, its bump is shifted to shorter
wavelengths as compared to the Galaxy and its UV extinction does not conform to
the Galactic analytical interpolation curve based on the ratio of total to
selective extinction; (3) the 'typical', monotonic SMC extinction curve can be
best fit with amorphous carbon and silicate grains; (4) the extinction towards
AZV456 may only be explained by assuming a larger gas-to-dust ratio than the
observed N(HI)/A(V) value, with a small amount of the available carbon in
graphite form; (5) from an analysis of both the extinction and polarization
data and our model fits it appears that the SMC has typically smaller grains
than those in the Galaxy.Comment: To appear in the ApJ, 50 pages, latex fil
Modeling of C stars with core/mantle grains: Amorphous carbon + SiC
A set of 45 dust envelopes of carbon stars has been modeled. Among them, 34
were selected according to their dust envelope class (as suggested by Sloan
et al. [CITE]) and 11 are extreme carbon stars. The models were
performed using a code that describes the radiative transfer in dust envelopes
considering core/mantle grains composed by an α-SiC core and an
amorphous carbon (A.C.) mantle. In addition, we have also computed models with
a code that considers two kinds of grains -α-SiC and A.C. -
simultaneously. Core-mantle grains seem to fit dust envelopes of evolved carbon
stars, while two homogeneous grains are more able to reproduce thinner dust
envelopes. Our results suggest that there exists an evolution of dust grains in
the carbon star sequence. In the beginning of the sequence, grains are mainly
composed of SiC and amorphous carbon; with dust envelope evolution, carbon
grains are coated in SiC. This phenomena could perhaps explain the small
quantity of SiC grains observed in the interstellar medium. However, in
this work we consider only α-SiC grains, and the inclusion of ÎČ-SiC
grains can perhaps change some of these results