Monday, December 05, 2011

A Beast With Four Tails

A map of the sky showing the numbers of stars counted in the Sagittarius streams. The colors indicate the distances to the stars identified in the study - stars located in red areas are further away, while stars in the blue areas are closer. The dotted red lines trace out the Sagittarius streams, and the blue ellipses in the center show the current location of the Sagittarius Dwarf Galaxy. Figure credit: S. Koposov and the SDSS-III collaboration. Click here for a larger (300 DPI) version.

The Milky Way galaxy continues to devour its small neighboring dwarf galaxies and the evidence is spread out across the sky.

A team of astronomers led by Sergey Koposov and Vasily Belokurov of the University of Cambridge recently discovered two streams of stars in the Southern Galactic hemisphere that were torn off the Sagittarius dwarf galaxy. This discovery came from analyzing data from the latest Sloan Digital Sky Survey (SDSS-III) and was announced in a paper released December 1, 2011 (arXiv paper #1111.7042) that connects these new streams with two previously known streams in the Northern Galactic hemisphere.

"We have long known that when small dwarf galaxies fall into bigger galaxies, elongated streams, or tails, of stars are pulled out of the dwarf by the enormous tidal field," said Sergey Koposov.

The Sagittarius dwarf galaxy used to be one of the brightest of the Milky Way satellites. Its disrupted remnant now lies on the other side of the Galaxy, breaking up as it is crushed and stretched by huge tidal forces. It is so small that it has lost half of its stars and all its gas over the last billion years.

Before SDSS-III, Sagittarius was known to have two tails, one in front of and one behind the remnant. Previous SDSS imaging had already found the Sagittarius tidal tail in the Northern Galactic sky in 2006 and revealed that one of the tails was forked into two.

"That was an amazing discovery," said Vasily Belokurov, "but the remaining piece of the puzzle, the structure in the South, was missing until now."

Sergey Koposov and colleagues analyzed density maps of over 13 million stars in the latest release of Sloan Digital Sky Survey data, including the crucial coverage of the Southern Galactic sky. The new data show that the Sagittarius stream in the South is also split into two, a fatter and brighter stream alongside a thinner and fainter stream. This brighter stream is more enriched with iron and other metals than its dimmer companion. Because each generation of stars makes and distributes more metals into the next generation, the Cambridge astronomers concluded that the brighter stream is younger than the older fainter one.

"Sagittarius is like a beast with four tails," observed Wyn Evans, from the Institute of Astronomy, University of Cambridge.

An artist's impression of the four tails of the Sagittarius Dwarf Galaxy (the orange clump on the left of the image) orbiting the Milky Way. The bright yellow circle to the right of the galaxy's center is our Sun (not to scale). Figure credit: Amanda Smith, Institute of Astronomy, University of Cambridge

The Sagittarius dwarf galaxy is on the other side of the galaxy from us, but we can see its tidal tails of stars (white in this image) stretching across the sky as they wrap around our galaxy. Click here for a larger (300 DPI) version.

No one knows the mechanism that caused the splitting of the tidal tails. However, scientists believe that perhaps the Sagittarius dwarf galaxy was once a part of a binary galactic system, similar to the present day Large and Small Magellanic Clouds. Each of these could have produced a leading and trailing tail on falling into the Milky Way Galaxy, yielding four in all.

But co-author Geraint Lewis of Sydney University has another idea. He says, "Perhaps the Sagittarius dwarf galaxy has suffered an encounter with an object in the game of Galactic billiards. Maybe a collision with a massive clump of dark matter, or even another satellite galaxy, has split each of the streams into two."

A final theory suggests that, just as meteors have spread into different streams through evolution in the Solar system, debris from Sagittarius may have spread into different streams at different points in time. Different epochs may suffer different amounts of precession in the Galaxy, causing the split streams. "I have been running hundreds of simulations of the disruption of the Sagittarius dwarf and this idea looks very plausible," commented Jorge Penarrubia of the IAA, Granada, who was also involved in the study.

Whatever the explanation, SDSS-III has provided a wealth of new information on the engorgement of the Sagittarius galaxy. The disruption of smaller galaxies has occurred many times in the history of the Milky Way and other galaxies like ours throughout the Universe.

The wagging of the four tails of Sagittarius will shed new light on both the structure and formation of the Milky Way.

Additional Resources

The paper is available from the arXiv Preprint Server (paper number 1111.7042)

The following YouTube video is an illustration of the streams produced by the Sagittarius dwarf galaxy wrapping around the Milky Way.


This YouTube movie shows an illustration of multiple streams produced by the disruption of the Sagittarius dwarf galaxy in the Milky Way halo. The orange sphere shows the location of the Sun in the Galaxy. The Sagittarius dwarf galaxy itself is located in the middle of the stream. The size of the area shown in the movie is approximately 600 thousands light years (200 kiloparsecs). Figure credit: S. Koposov and the SDSS-III collaboration

About SDSS-III

Funding for SDSS-III has been provided by the Alfred P. Sloan Foundation, the Participating Institutions, the National Science Foundation, and the U.S. Department of Energy. The SDSS-III web site is http://www.sdss3.org/.

SDSS-III is managed by the Astrophysical Research Consortium for the Participating Institutions of the SDSS-III Collaboration including the University of Arizona, the Brazilian Participation Group, Brookhaven National Laboratory, University of Cambridge, University of Florida, the French Participation Group, the German Participation Group, the Instituto de Astrofisica de Canarias, the Michigan State/Notre Dame/JINA Participation Group, Johns Hopkins University, Lawrence Berkeley National Laboratory, Max Planck Institute for Astrophysics, New Mexico State University, New York University, Ohio State University, Pennsylvania State University, University of Portsmouth, Princeton University, the Spanish Participation Group, University of Tokyo, University of Utah, Vanderbilt University, University of Virginia, University of Washington, and Yale University.

Contacts:

Sergey Koposov,
University of Cambridge,

koposov@ast.cam.ac.uk, +44 01223 337551

Vasily Belokurov,
University of Cambridge,

vasily@ast.cam.ac.uk, +44 01223 337515

Wyn Evans, University of Cambridge,
nwe@ast.cam.ac.uk, +44 01223 765847

Michael Wood-Vasey,
SDSS-III Spokesperson,
University of Pittsburgh,
wmwv@pitt.edu, +1 412-624-2751

Jordan Raddick,
SDSS Public Information Officer,

raddick@jhu.edu, +1 410-516-8889

Copyright © 2010 SDSS-III