Astronomers Find the Purest
Oxygen Atmosphere Ever
Discovered—
On a White Dwarf
Astronomers have discovered a never-before-seen type of white dwarf star, one that has a pure oxygen atmosphere. In a paper published in Science, the researchers detail the discovery of what is the only star of its kind known.
A PECULIAR WHITE DWARF
White dwarfs are like the doddering seniors of the stellar world: They’re in the last stage of their development, they come just after the most active and expansive phase of a star’s life, and they’re white with age.
These curious objects are the leftovers of a star after it has exhausted its nuclear fuel. Super-dense and super-hot, these white dwarfs have only the lightest elements on their surface, typically hydrogen and helium.
Astronomers have discovered a white dwarf that has a pure oxygen atmosphere. In a paperpublished in Science, the researchers detail the discovery of what is the only star of its kind ever to be found.
The team of Brazilian astronomers were combing the data of the Apache Point Observatory for a project called the Sloan Digital Sky Survey when they found the star, over 1200 light years distant, which seemingly had an atmosphere of 99.9 % oxygen.
They nicknamed the star “Dox” (Dee-Awks).
STRIPPING A STAR
The question on everybody’s mind is: what happened to it? White dwarfs typically have hydrogen and helium in their atmospheres, and heavier elements like oxygen, neon, and magnesium are found in a pool of these light elements.
Also, stars that have these heavy elements are typically large. For a white dwarf to have any oxygen, it must have been at least twice as big as Dox.
Quite simply, Dox defies most of our knowledge in stellar evolution and white dwarf formation. But this is not to say that there are no theories.
The most popular theory is that the star is a product of a binary evolution; there was another star in the same system, somewhat like the setups in the nearby Sirius and Procyon systems. The other star stripped Dox of its surface, exposing the heavy materials underneath. This explains why such a seemingly small white dwarf harbors such heavy elements: it used to be bigger.
“This star, a possible oxygen-neon white dwarf, will provide a rare observational test of the evolutionary paths toward white dwarfs,” says Dr. Kepler de Souza Oliveira, team leader of the astronomers.
With such a pure oxygen atmosphere, we could probably breathe it—while simultaneously being fried by the white dwarf’s intense radiation and crushed to single-atom thickness by its colossal gravity.
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