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Post Info TOPIC: LS IV-14 116


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RE: LS IV-14 116
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Astronomers find twinkling star

A team of Irish astronomers using the Department of Innovation, Industry, Science and Researchs Anglo-Australian Telescope in northwest NSW have discovered a star glittering with zirconium, the material used to make look-alike diamonds.
According to Australian expert Dr Simon OToole, it was the first hed ever heard of such a star.
The astronomers, from Armagh Observatory in Northern Ireland, calculated that the star contains four billion tonnes of zirconium, or 4,000 times the worlds annual production.

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Astronomers have discovered a star that glitters with zirconium, a material often used to make fake diamonds.
Dr Simon O'Toole, from the Australian Astronomical Observatory, said this was the first star of its kind.

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Position(2000): RA 20 57 38.8, Dec -14 25 47

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Title: An extremely peculiar hot subdwarf with a ten-thousand-fold excess of zirconium, yttrium, and strontium
Authors: Naslim N., C.S. Jeffery, N.T. Behara, A. Hibbert

Helium-rich subdwarf B (He-sdB) stars represent a small group of low-mass hot stars with luminosities greater than those of conventional subdwarf B stars, and effective temperatures lower than those of subdwarf O stars. By measuring their surface chemistry, we aim to explore the connection between He-sdB stars, He-rich sdO stars and normal sdB stars. LS IV-14 116 is a relatively intermediate He-sdB star, also known to be a photometric variable. High-resolution blue-optical spectroscopy was obtained with the Anglo-Australian Telescope. Analysis of the spectrum shows LS IV-14 116 to have effective temperature Teff = 34 000 ±500 K, surface gravity log g = 5.6 ±0.2, and surface helium abundance nHe = 0.16 ±0.03 by number. This places the star slightly above the standard extended horizontal branch, as represented by normal sdB stars. The magnesium and silicon abundances indicate the star to be metal poor relative to the Sun. A number of significant but unfamiliar absorption lines were identified as being due to germanium, strontium, yttrium and zirconium. After calculating oscillator strengths (for Ge, Y and Zr), the photospheric abundances of these elements were established to range from 3 dex (Ge) to 4 dex (Sr, Y and Zr) above solar. The most likely explanation is that these overabundances are caused by radiatively-driven diffusion forming a chemical cloud layer in the photosphere. It is conjectured that this cloud formation could be mediated by a strong magnetic field.

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