Sara R. Heap scite author profile

We present the results of a detailed analysis of the properties of dwarf O-type stars in a metal-poor environment. High-resolution, high-quality, ultraviolet and optical spectra of six O-type stars in the H II region NGC 346 have been obtained from a spectroscopic survey of O stars in the SMC. Stellar parameters and chemical abundances have been determined using NLTE line-blanketed photospheric models calculated with Tlusty. Additionally, we have modeled the spectra with the NLTE line-blanketed wind code, CMFGEN, to derive wind parameters. Stellar parameters and chemical abundances, and in particular iron abundances, obtained with the two NLTE codes compare quite favorably. This

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A Tale of Two Stars: The Extreme O7 Iaf+ Supergiant AV 83 and the OC7.5 III((f)) star AV 69

Hillier

Lanz

Heap

et al. 2003

ApJ

190

345

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Space Telescope Imaging Spectrograph Coronagraphic Observations of β Pictoris

Heap

Lindler

Lanz

et al. 2000

ApJ

211

276

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We present new coronagraphic images of b Pictoris obtained with the Space Telescope Imaging Spectrograph (STIS) in 1997 September. The high-resolution images clearly detect the circumstellar (0A .1) disk as close to the star as corresponding to a projected radius of 15 AU. The images deÐne the 0A .75, warp in the disk with greater precision and at closer radii to b Pic than do previous observations. They show that the warp can be modeled by the projection of two components : the main disk and a fainter component, which is inclined to the main component by 4¡È5¡ and extends only as far as B4A from the star. We interpret the main component as arising primarily in the outer disk and the tilted component as deÐning the inner region of the disk. The observed properties of the warped inner disk are inconsistent with a driving force from stellar radiation. However, warping induced by the gravitational potential of one or more planets is consistent with the data. Using models of planet-warped disks constructed by Larwood & Papaloizou, we derive possible masses of the perturbing object.

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STIS Observations of HeiiGunn‐Peterson Absorption toward Q0302−003

Heap

Williger

Smette

et al. 2000

ApJ

144

246

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The ultraviolet spectrum (1145-1720 Å) of the distant quasar Q 0302-003 (z = 3.286) was observed at 1.8 Å resolution with the Space Telescope Imaging Spectrograph aboard the Hubble Space Telescope. A total integration time of 23,280 s was obtained. The spectrum clearly delineates the Gunn-Peterson He II absorption trough, produced by He II Lyα along the line of sight over the redshift range z = 2.78 − 3.28. Its interpretation was facilitated by modeling

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Fundamental Properties of O‐Type Stars

Heap

Lanz

Hubený

2006

ApJ

184

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We present a comprehensive analysis of high-resolution, far-ultraviolet HST STIS, FUSE, and optical spectra of 18 O stars in the Small Magellanic Cloud. Our analysis is based on the OSTAR2002 grid of NLTE metal-line-blanketed model atmospheres calculated with our code TLUSTY. We systematically explore and present the sensitivity of various UV and optical lines to different stellar parameters. We have obtained consistent fits of the UV and the optical spectrum to derive the effective temperature, surface gravity, surface composition, and microturbulent velocity of each star. Stellar radii, masses, and luminosities follow directly. For stars of the same spectral subtype, we find a general good agreement between effective temperature determinations obtained with TLUSTY, CMFGEN, and FASTWIND models, which are all lower than the standard T eff calibration of O stars. We propose a new calibration between the spectral type and effective temperature based on our results from UV metal lines, as well as optical hydrogen and helium lines. The lower effective temperatures translate into ionizing luminosities that are smaller by a factor of 3 compared to luminosities inferred from previous standard calibrations. The chemical composition analysis reveals that the surface of about 80% of the program stars is moderately to strongly enriched in nitrogen, while showing the original helium, carbon, and oxygen abundances. Our results support the new stellar evolution models that predict that the surface of fast rotating stars becomes nitrogen-rich during the main-sequence phase because of rotationally induced mixing. Enrichment factors are, however, larger than predicted by stellar evolution models. Most stars exhibit the ''mass discrepancy'' problem, which we interpret as a result of fast rotation that lowers the measured effective gravity. Nitrogen enrichment and low spectroscopic masses are therefore two manifestations of fast rotation. Our study thus emphasizes the importance of rotation in our understanding of the properties of massive stars and provides a framework for investigating populations of low-metallicity massive stars at low and high redshifts.

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Sara R. Heap

Quantitative Spectroscopy of O Stars at Low Metallicity: O Dwarfs in NGC 346

A Tale of Two Stars: The Extreme O7 Iaf+ Supergiant AV 83 and the OC7.5 III((f)) star AV 69

Space Telescope Imaging Spectrograph Coronagraphic Observations of β Pictoris

STIS Observations of HeiiGunn‐Peterson Absorption toward Q0302−003

Fundamental Properties of O‐Type Stars

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