Chemical fingerprints of He-sdO stars
Copyright policy )Chemical fingerprints of He-sdO stars
Abstract The chemical composition of helium-rich hot subluminous O stars plays an important role to understand and model their formation history. We present a spectroscopic analysis of four He-sdO stars,CD-31° 4800, [CW83] 0904- 02, LSS 1274 and LS IV +10° 9. The analysis is based on archival optical and UV high-resolution spectra. We used Tlusty200/Synspec48 to compute line blanketed non-LTE model atmospheres and their corresponding synthetic spectra and derive the atmospheric parameters as well as the abundances of the most prominent elements. All stars have helium-dominated atmospheres with hardly any hydrogen and temperatures between 42000 K and 47000 K while their surface gravity spans between log g = 5.4 and 5.7. CD-31° 4800 shows an enrichment of nitrogen and the characteristic pattern of hydrogen burning via the CNO-cycle, while the rest of the elements have about the solar abundance. This points to the slow merger of two helium white dwarfs as the most likely origin for this system. The other three stars are enriched in carbon, nitrogen and neon while their intermediate mass element’s abundance scatters around the solar value. They were possibly formed in the deep mixing late hot flasher scenario.
- National University of La Plata Argentina
- Centro Científico Tecnológico - La Plata Argentina
- National Scientific and Technical Research Council Argentina
- Instituto de Astrofísica de La Plata Argentina
slow merger, he-sdo, Abundance of the chemical elements, Optical 3D Laser Measurement Systems Optimization, Astronomy, Computational Mechanics, QB1-991, Neon, Stellar Astrophysics and Exoplanet Studies, Astrophysics, Helium, Instability strip, Quantum mechanics, Atomic physics, Effective temperature, Astronomical Data Analysis, Engineering, hot flasher, Astronomical Instrumentation and Spectroscopy, Argon, Instrumentation, atmospheric parameters, Cepheid variable, abundances, Physics, Astronomy and Astrophysics, White dwarf, Stars, Solar mass, He-sdO, Surface gravity, Astronomía, Physics and Astronomy, subdwarfs, Physical Sciences, stellar atmospheres, Spectral line, Hydrogen
slow merger, he-sdo, Abundance of the chemical elements, Optical 3D Laser Measurement Systems Optimization, Astronomy, Computational Mechanics, QB1-991, Neon, Stellar Astrophysics and Exoplanet Studies, Astrophysics, Helium, Instability strip, Quantum mechanics, Atomic physics, Effective temperature, Astronomical Data Analysis, Engineering, hot flasher, Astronomical Instrumentation and Spectroscopy, Argon, Instrumentation, atmospheric parameters, Cepheid variable, abundances, Physics, Astronomy and Astrophysics, White dwarf, Stars, Solar mass, He-sdO, Surface gravity, Astronomía, Physics and Astronomy, subdwarfs, Physical Sciences, stellar atmospheres, Spectral line, Hydrogen
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