Bibcode
Pereyra, A.; Castilho, B. V.; Magalhães, A. M.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 449, Issue 1, April I 2006, pp.211-222
Fecha de publicación:
4
2006
Revista
Número de citas
5
Número de citas referidas
4
Descripción
Context: .Protoplanetary nebulae typically present non-spherical
envelopes. The origin of such geometry is still controversial. There are
indications that it may be carried over from an earlier phase of stellar
evolution, such as the AGB phase. But how early in the star's evolution
does the non-spherical envelope appear? Aims.Li-rich giants show dusty
circumstellar envelopes that can help answer that question. We study a
sample of fourteen Li-rich giants using optical polarimetry in order to
detect non-spherical envelopes around them. Methods.We used the IAGPOL
imaging polarimeter to obtain optical linear polarization measurements
in {V} band. Foreground polarization was estimated using the field stars
in each CCD frame.Results.After foreground polarization was removed,
seven objects presented low intrinsic polarization (0.19-0.34)% and two
(V859 Aql and GCSS 557) showed
high intrinsic polarization values (0.87-1.16)%. This intrinsic
polarization suggests that Li-rich giants present a non-spherical
distribution of circumstellar dust. The intrinsic polarization level is
probably related to the viewing angle of the envelope, with higher
levels indicating objects viewed closer to edge-on. The correlation of
the observed polarization with optical color excess gives additional
support to the circumstellar origin of the intrinsic polarization in
Li-rich giants. The intrinsic polarization correlates even better with
the IRAS 25 μ m far infrared emission. Analysis of spectral energy
distributions for the sample show dust temperatures for the envelopes
that tend to be between 190 and 260 K. We suggest that dust scattering
is indeed responsible for the optical intrinsic polarization in Li-rich
giants.Conclusions.Our findings indicate that non-spherical envelopes
may appear as early as the red giant phase of stellar evolution.