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Nearby galaxy is a 'fossil' from the early universe

Date:
May 1, 2014
Source:
Carnegie Institution
Summary:
Scientists analyzed the chemical elements in the faintest known galaxy, called Segue 1, and determined that it is effectively a fossil galaxy left over from the early universe. Stars form from gas clouds and their composition mirrors the chemical composition of the galactic gas from which they were born.

On the left, Segue 1 (note that you can't see the galaxy); on the right, the stars that are part of Segue 1 are circled.
Credit: Marla Geha Yale University

New work from a team of scientists including Carnegie's Josh Simon analyzed the chemical elements in the faintest known galaxy, called Segue 1, and determined that it is effectively a fossil galaxy left over from the early universe.

Astronomers hoping to learn about the first stages of galaxy formation after the Big Bang use the chemical composition of stars to help them unravel the histories of the Milky Way and other nearby galaxies. Using these chemical analysis techniques, the team was able to categorize Segue 1's uniquely ancient composition. Their work is published by Astrophysical Journal.

Stars form from gas clouds and their composition mirrors the chemical composition of the galactic gas from which they were born. Only a few million years after stars begin burning, the most-massive stars explode in titanic blasts called supernovae. These explosions seed the nearby gas with heavy elements produced by the stars during their lifetimes. The very oldest stars consist almost entirely of the two lightest elements, hydrogen and helium, because they were born before ancient supernova explosions built up significant amounts of heavier elements.

In most galaxies, this process is cyclical, with each generation of stars contributing more heavy elements to the raw material from which the next set of stars will be born. But not in Segue 1 -- in contrast to all other galaxies, the new analysis shows that Segue 1's star formation ended at what would ordinarily be an early stage of a galaxy's development. Segue 1 likely failed to progress further because of its unusually tiny size.

"Our work suggests that Segue 1 is the least chemically evolved galaxy known," Simon said. "After the initial few supernova explosions, it appears that only a single generation of new stars were formed, and then for the last 13 billion years the galaxy has not been creating stars."

Because it has stayed in the same state for so long, Segue 1 offers unique information about the conditions in the universe shortly after the Big Bang. Other galaxies have undergone multiple supernova explosions since their formation. The first supernovae to blow up, from the most massive stars, produce elements like magnesium, silicon, and calcium. Later explosions of smaller stars primarily make iron. Segue 1's uniquely low iron abundance relative to other elements shows that its star formation must have stopped before any of the iron-forming supernovae occurred.

This truncated evolution means that the products of the first explosions in Segue 1 have been preserved. Intriguingly, very heavy elements like barium and strontium are nearly absent from Segue 1's stars.

"The heaviest elements in this galaxy are at the lowest levels ever found," said Anna Frebel of the Massachusetts Institute of Technology, the leader of the team. "This gives us clues about what those first supernovae looked like."

Studying individual stars in dwarf galaxies can be difficult and Segue 1, which orbits our own Milky Way, is particularly puny, containing only about a thousand stars. Just seven stars in the entire galaxy are in the red giant phase of their lives, making them bright enough for modern telescopes to detect the features astronomers use to measure the abundance of each chemical element. Three of the seven red giants have heavy element abundances more than 3,000 times lower than that of the Sun, highlighting the primitive nature of the galaxy.

"Having found such a fossil galaxy is of enormous importance to astronomy, because it provides a new window into the first galaxies," Frebel said.

Along with Simon and Frebel, the other author of the study was Evan Kirby of the University of California, Irvine. The team used one of Carnegie's 6.5 meter Magellan telescopes in Chile to observe five of the Segue 1 stars, while one was studied with the 10 meter Keck I telescope in Hawaii. The final star was identified and measured by a competing team using the European Southern Observatory's 8.2 meter Very Large Telescope, also in Chile.


Story Source:

The above story is based on materials provided by Carnegie Institution. Note: Materials may be edited for content and length.


Journal Reference:

  1. Anna Frebel, Joshua D. Simon, Evan N. Kirby. SEGUE 1: AN UNEVOLVED FOSSIL GALAXY FROM THE EARLY UNIVERSE. The Astrophysical Journal, 2014; 786 (1): 74 DOI: 10.1088/0004-637X/786/1/74

Cite This Page:

Carnegie Institution. "Nearby galaxy is a 'fossil' from the early universe." ScienceDaily. ScienceDaily, 1 May 2014. <www.sciencedaily.com/releases/2014/05/140501132632.htm>.
Carnegie Institution. (2014, May 1). Nearby galaxy is a 'fossil' from the early universe. ScienceDaily. Retrieved October 22, 2014 from www.sciencedaily.com/releases/2014/05/140501132632.htm
Carnegie Institution. "Nearby galaxy is a 'fossil' from the early universe." ScienceDaily. www.sciencedaily.com/releases/2014/05/140501132632.htm (accessed October 22, 2014).

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'Wimpy' Dwarf Fossil Galaxy Reveals New Facts About Early Universe

May 1, 2014 — Out on the edge of the universe, 75,000 light years from us, a galaxy known as Segue 1 has some unusual properties: it is the faintest galaxy ever detected. It is very small, containing only about ... read more

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