212 research outputs found
Signature of wide-spread clumping in B supergiant winds
We seek to establish additional observational signatures of the effects of
clumping in OB star winds. The action of clumping on strategic wind-formed
spectral lines is tested to steer the development of models for clumped winds
and thus improve the reliability of mass-loss determinations for massive
stars.The SiIV 1400 resonance line doublets of B0 to B5 supergiants are
analysed using empirical line-synthesis models. The focus is on decoding
information on wind clumping from measurements of ratios of the radial optical
depths (tau_(rad)(w)) of the red and blue components of the SiIV doublet. We
exploit in particular the fact that the two doublet components are decoupled
and formed independently for targets with relatively low wind terminal
velocities. Line-synthesis analyses reveal that the mean ratio of tau_(rad)(w)
of the blue to red SiIV components are rarely close to the canonical value of ~
2 (expected from atomic constants), and spread instead over a range of values
between ~1 and 2. These results are interpreted in terms of a photosphere that
is partially obscured by optically thick structures in the outflowing gas.The
spectroscopic signatures established in this study demonstrate the wide-spread
existence of wind clumping in B supergiants. The additional information in
unsaturated doublet profiles provides a means to quantify the porosity of the
winds.Comment: Accepted for publication in A&A Letter
Mass loss rates from mid-IR excesses in LMC and SMC O stars
We use a combination of BVJHK and Spitzer [3.6], [5.8] and [8.0] photometry
to determine IR excesses for a sample of 58 LMC and 46 SMC O stars. This sample
is ideal for determining IR excesses because the very small line of sight
reddening minimizes uncertainties due to extinction corrections. We use the
core-halo model developed by Lamers & Waters (1984a) to translate the excesses
into mass loss rates and demonstrate that the results of this simple model
agree with the more sophisticated CMFGEN models to within a factor of 2. Taken
at face value, the derived mass loss rates are larger than those predicted by
Vink et al. (2001), and the magnitude of the disagreement increases with
decreasing luminosity. However, the IR excesses need not imply large mass loss
rates. Instead, we argue that they probably indicate that the outer atmospheres
of O stars contain complex structures and that their winds are launched with
much smaller velocity gradients than normally assumed. If this is the case, it
could affect the theoretical and observational interpretations of the "weak
wind" problem, where classical mass loss indicators suggest that the mass loss
rates of lower luminosity O stars are far less than expected.Comment: 15 pages, 10 figures. Accepted for publication in MNRA
The effects of clumping on wind line variability
We review the effects of clumping on the profiles of resonance doublets. By
allowing the ratio of the doublet oscillator strenghts to be a free parameter,
we demonstrate that doublet profiles contain more information than is normally
utilized. In clumped (or porous) winds, this ratio can lies between unity and
the ratio of the f-values, and can change as a function of velocity and time,
depending on the fraction of the stellar disk that is covered by material
moving at a particular velocity at a given moment. Using these insights, we
present the results of SEI modeling of a sample of B supergiants, zeta Pup and
a time series for a star whose terminal velocity is low enough to make the
components of its Si IV 1400 doublet independent. These results are interpreted
within the framework of the Oskinova et al. (2007) model, and demonstrate how
the doublet profiles can be used to extract infromation about wind structure.Comment: 3 pages, to appear in Clumping in Hot Star Winds, W.-R. Hamann, A.
Feldmeier & L. Oskinova, eds., Potsdam: Univ.-Verl., 2007, URN:
http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-1398
Orbital and stochastic far-UV variability in the nova-like system V3885 Sgr
Highly time-resolved time-tagged FUSE satellite spectroscopic data are
analysed to establish the far-ultraviolet (FUV) absorption line characteristics
of the nova-like cataclysmic variable binary, V3885 Sgr. We determine the
temporal behaviour of low (Ly_beta, CIII, NIII) and high (SIV, PV, OVI) ion
species, and highlight corresponding orbital phase modulated changes in these
lines. On average the absorption troughs are blueshifted due to a low velocity
disc wind outflow. Very rapid (~ 5 min) fluctuations in the absorption lines
are isolated, which are indicative of stochastic density changes. Doppler
tomograms of the FUV lines are calculated which provide evidence for structures
where a gas stream interacts with the accretion disc. We conclude that the line
depth and velocity changes as a function of orbital phase are consistent with
an asymmetry that has its origin in a line-emitting, localised disc-stream
interaction region.Comment: Accepted for publication in MNRA
Asymmetric Ejecta of Cool Supergiants and Hypergiants in the Massive Cluster Westerlund 1
We report new 5.5 GHz radio observations of the massive star cluster Westerlund 1, taken by the Australia Telescope Compact Array, detecting nine of the ten yellow hypergiants (YHGs) and red supergiants (RSGs) within the cluster. Eight of nine sources are spatially resolved. The nebulae associated with the YHGs Wd1-4a, -12a and -265 demonstrate a cometary morphology - the first time this phenomenon has been observed for such stars. This structure is also echoed in the ejecta of the RSGs Wd1-20 and -26; in each case the cometary tails are directed away from the cluster core. The nebular emission around the RSG Wd1-237 is less collimated than these systems but once again appears more prominent in the hemisphere facing the cluster. Considered as a whole, the nebular morphologies provide compelling evidence for sculpting via a physical agent associated with Westerlund 1, such as a cluster wind
PN fast winds: Temporal structure and stellar rotation
To diagnose the time-variable structure in the fast winds of central stars of
planetary nebulae (CSPN), we present an analysis of P Cygni line profiles in
FUSE satellite far-UV spectroscopic data. Archival spectra are retrieved to
form time-series datasets for the H-rich CSPN NGC 6826, IC 418, IC 2149, IC
4593 and NGC 6543. Despite limitations due to the fragmented sampling of the
time-series, we demonstrate that in all 5 CSPN the UV resonance lines are
variable primarily due to the occurrence of blueward migrating discrete
absorption components (DACs). Empirical (SEI) line-synthesis modelling is used
to determine the range of fluctuations in radial optical depth, which are
assigned to the temporal changes in large-scale wind structures. We argue that
DACs are common in CSPN winds, and their empirical properties are akin to those
of similar structures seen in the absorption troughs of massive OB stars.
Constraints on PN central star rotation velocities are derived from
Fast-Fourier Transform analysis of photospheric lines for our target stars.
Favouring the causal role of co-rotating interaction regions, we explore
connections between normalised DAC accelerations and rotation rates of PN
central stars and O stars. The comparative properties suggest that the same
physical mechanism is acting to generate large-scale structure in the
line-driven winds in the two different settings.Comment: Accepted for publication in MNRAS; 10 pages, 5 figure
The optical counterpart of an Ultra-luminous X-Ray Source in NGC 5204
Ultra-luminous X-Ray sources are extra-nuclear point sources in external
galaxies with -- erg/s and are among the most poorly
understood X-ray sources. To help understand their nature, we are trying to
identify their optical counterparts by combining images from the Hubble Space
Telescope and the Chandra Observatory. Here we report upon the optical
counterpart for the ULX in NGC 5204, which has average X-ray luminosity of
erg/s and has varied by a factor of 50% over the last 10
years. A unique optical counterpart to this ULX is found by carefully comparing
the Chandra ACIS images and HST WFPC2 and ACS/HRC images. The spectral energy
distribution and the HST/STIS FUV spectrum of this object show that it is a B0
Ib supergiant star with peculiarities, including the 1240 N V emission
line that is uncommon in B stellar spectra but has been predicted for X-ray
illuminated accretion disks and seen in some X-ray binaries. Study of its FUV
spectrum leads to a binary model for this ULX in which the B0 Ib supergiant is
overflowing its Roche Lobe and accreting onto the compact primary, probably a
black hole. This picture predicts an orbital period of days for
different black hole mass, which can be tested by future observations
ALMA observations of the supergiant B[e] star Wd1-9
Mass-loss in massive stars plays a critical role in their evolution, although the precise mechanism(s) responsible – radiatively driven winds, impulsive ejection and/or binary interaction – remain uncertain. In this Letter, we present Atacama Large Millimetre/Submillimeter Array line and continuum observations of the supergiant B[e] star Wd1-9, a massive post-main-sequence object located within the starburst cluster Westerlund 1 (Wd1). We find it to be one of the brightest stellar point sources in the sky at millimetre wavelengths, with (serendipitously identified) emission in the H41α radio recombination line. We attribute these properties to a low velocity (∼100 km s-1 ) ionized wind, with an extreme mass-loss rate ≳6.4 × 105(d/5 kpc)1.5 Mȯyr-1. External to this is an extended aspherical ejection nebula indicative of a prior phase of significant mass-loss. Taken together, the millimetre properties of Wd1-9 show a remarkable similarity to those of the highly luminous stellar source MWC349A. We conclude that these objects are interacting binaries evolving away from the main sequence and undergoing rapid case-A mass transfer. As such they – and by extension the wider class of supergiant B[e] stars – may provide a unique window into the physics of a process that shapes the life-cycle of ∼70 per cent of massive stars found in binary systems
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