213 research outputs found
Pulsations and Long-Term Light Variability of Three Candidates to Protoplanetary Nebulae
We present new photometric data and analysis of the long-duration UBV
photoelectric observations for three candidates to protoplanetary objects -
F-supergiants with IR-excesses located at large galactic latitudes, IRAS
18095+2704, IRAS 19386+0155, and IRAS 19500-1709. All three stars have revealed
quasiperiodic low-amplitude variabilities caused by pulsations observed against
the long-term trends of brightnesses. For IRAS 18095+2704=V887 Her we have
found a pulsation period of 109 days and a linear trend of brightness under the
constant colours if being averaged over the year timescale. The light curve of
IRAS 19386+0155=V1648 Aql over 2000-2008 can be approximated by a wave with a
main period of 102 days which is modulated by close frequency, with a period of
98 days, that results in brightness oscillations with a variable amplitude.
V1648 Aql has also shown synchronous reddening together with a persistent rise
of brightness in the V-band. IRAS 19500-1709=V5112 Sgr experiences irregular
pulsations with the periods of 39 and 47 days. The long-term component of the
variability of V5112 Sgr may be related to the binary character of this star.Comment: 11 pages, 6 figures, accepted for publication in Pis'ma Astron. Z
Variability of Hot Supergiant IRAS 19336-0400 in the Early Phase of its Planetary Nebula Ionization
We present photoelectric and spectral observations of a hot candidate
proto-planetary nebula - early B-type supergiant with emission lines in
spectrum - IRAS 19336-0400. The light and color curves display fast irregular
brightness variations with maximum amplitudes Delta V=0.30 mag, Delta B=0.35
mag, Delta U=0.40 mag and color-brightness correlations. By the variability
characteristics IRAS 19336-0400 appears similar to other hot proto-planetary
nebulae. Based on low-resolution spectra in the range lambda 4000-7500 A we
have derived absolute intensities of the emission lines H_alpha, H_beta,
H_gamma, [SII], [NII], physical conditions in gaseous nebula: n_e=10^4 cm^{-3},
T_e=7000 \pm 1000 K. The emission line H_alpha, H_beta equivalent widths are
found to be considerably variable and related to light changes. By
UBV-photometry and spectroscopy the color excess has been estimated:
E_{B-V}=0.50-0.54. Joint photometric and spectral data analysis allows us to
assume that the star variability is caused by stellar wind variations.Comment: 11 pages, 6 figures, 2 tables, accepted for publication in Pis'ma
Astron. Zh. (Astronomy Letters
From pre- to young Planetary Nebulae: radio continuum variability
Searching for variability, we have observed a sample of hot post-AGB stars
and young Planetary Nebulae candidates with the Very Large Array at 4.8, 8.4,
and 22.4 GHz. The sources had been previously detected in the radio continuum,
which is a proof that the central stars have started ionising their
circumstellar envelopes and an increase in radio flux with time can be expected
as a result of the progression of the ionisation front. Such a behaviour has
been found in IRAS 18062+2410, whose radio modelling has allowed us to
determine that its ionised mass has increased from 10^{-4} to 3.3 10^{-4} M_sun
in 8 years and its envelope has become optically thin at lower frequencies.
Different temporal behaviours have been found for three other sources. IRAS
17423-1755 has shown a possibly periodic pattern and an inversion of its radio
spectral index, as expected from a varying stellar wind. We estimate that the
radio flux arises from a very compact region around the central star (10^{15}
cm) with an electron density of 2 10^6 cm^{-3}. IRAS 22568+6141 and 17516-2525
have decreased their radio flux densities of about 10% per year over 4 years.
While a linear increase of the flux density with time points out to the
progression of the ionisation front in the envelope, decreases as well as
quasi-periodic patterns may indicate the presence of unstable stellar
winds/jets or thick dusty envelopes absorbing ionising photons.Comment: 9 pages, 5 figures, accepted for publication on MNRA
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