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For release: 06/19/03
Release #: 03-096

The secret lives of galaxies unveiled in deep survey

Photo description: Chandra Deep Field North

Bolstered by the largest ground-based telescopes around the world, NASA's Chandra X-ray Observatory and Hubble Space Telescope have joined forces to harvest new clues to the origin and evolution of the universe's largest building block, the galaxies. A recent composite survey encompasses tens of thousands of galaxies stretching far back into time. The Marshall Center manages the Chandra program.

Photo: Chandra Deep Field North (NASA/CXC/Penn State/D.M. Alexander, F.E. Bauer, W.N. Brandt et al.)

Two of NASA's Great Observatories, bolstered by the largest ground-based telescopes around the world, are beginning to harvest new clues to the origin and evolution of the universe's largest building block, the galaxies. It's a bit like finding a family scrapbook containing snapshots that capture the lives of family members from infancy through adolescence to adulthood.

"This is the first time that the cosmic tale of how galaxies build themselves has been traced reliably to such early times in the universe's life," says Mauro Giavalisco, head of the Hubble Space Telescope portion of the survey, and research astronomer at the Space Telescope Science Institute (STScI) in Baltimore, Md.

So far, the Hubble Space Telescope has joined forces with the Chandra X-ray Observatory to survey a relatively broad swath of sky encompassing tens of thousands of galaxies stretching far back into time. (This unprecedented survey will soon be joined by the Space Infrared Telescope Facility (SIRTF), which is to be launched in August 2003).

Called the Great Observatories Origins Deep Survey (GOODS), astronomers are studying galaxy formation and evolution over a wide range of distances and ages. The project is tracing the assembly history of galaxies, the evolution of their stellar populations, and the gusher of energy from star formation and active nuclei powered by immense black holes.

In preliminary results soon to be published in the Astrophysical Journal, Hubble astronomers report that the sizes of galaxies clearly increase continuously from the time the universe was about 1 billion years old to an age of 6 billion years. (This is approximately at half the current age of the universe, 13.7 billion years.) GOODS astronomers also find that the star birth rate rose mildly (by about a factor 3) between the time the universe was about one billion years old and 1.5 billion years old, and remained high until about 7 billion years ago, when it quickly dropped to one-tenth the earlier "baby boomer" rate. This is further evidence that major galaxy building trailed off when the universe was about half its current age.

This increase in galaxy size is consistent with "bottom-up" models, where galaxies grow hierarchically, through mergers and accretion of smaller satellite galaxies. This is also consistent with the idea that the sizes of galaxies match hand-in-glove to a certain fraction of the sizes of their dark-matter halos. Dark matter is an invisible form of mass that comprises most of the matter in the universe. The theory is that dark matter essentially pooled into gravitational "puddles" in the early universe that then collected normal gas that quickly contracted to build star clusters and small galaxies. These dwarf galaxies merged piece-by-piece over billions of years to build the immense spiral and elliptical galaxies we see today.

The Chandra observations amounted to a "high-energy core sample" of the early universe, allowing us to "study the history of black holes over almost the entire age of the universe", said Niel Brandt of Penn State University. One of the fascinating findings in this deepest X-ray image ever taken is the discovery of mysterious black holes, which have no optical counterparts.

"We found seven mysterious sources that are completely invisible in the optical with Hubble," said Anton Koekemoer of the Space Telescope Science Institute, who made the comparison between the X-ray and optical results. "Either they are the most distant black holes ever detected, or they are less distant black holes that are the most dust enshrouded
known, a surprising result as well."

When comparing the Hubble and Chandra fields, astronomers also found that active black holes in distant, relatively small galaxies were rarer than expected. This may be due to the effects of early generations of massive stars that exploded as supernovae, evacuating galactic gas and thus reducing the supply of gas needed to feed a supermassive black hole.

These and other results from the GOODS project will be published in a special issue of the Astrophysical Journal Letters, entirely devoted to the team's results. The Chandra results are found in papers led by Koekemoer and Stefano Cristiani of the Trieste Astronomical Observatory. Hubble's findings came from papers led by Giavalisco, Mark Dickinson, and Harry Ferguson of the STScI.

Electronic images and additional information are available at

The Space Telescope Science Institute (STScI) is operated by the Association of Universities for Research in Astronomy, Inc. (AURA), for NASA, under contract with the Goddard Space Flight Center, Greenbelt, MD. The Hubble Space Telescope is a project of international cooperation between NASA and the European Space Agency (ESA). NASA's Marshall Space Flight Center, Huntsville, Ala., manages the Chandra program. Northrop Grumman of Redondo Beach, Calif., formerly TRW, Inc., was the prime development contractor for the observatory. The Smithsonian's Chandra X-ray Center controls science and flight operations from Cambridge, Mass., for the Office of Space Science, NASA Headquarters, Washington.

For more information:
News release
Fact sheet
More Chandra news

Don Savage
NASA Headquarters
(202) 358-1547

Nancy Neal
Goddard Space Flight Center
(301) 286-0039

Ray Villard
Space Telescope Science Institute
Baltimore, Md.

(410) 338-4514

Megan Watzke
Chandra X-ray Obs. Center
(617) 496-7998

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