Elusive red quasars may be more common than previously expected, according to a
recent survey conducted by a research team headed by Dr. Mark Lacy, an astronomer at the
Space Infrared Telescope Facility Science Center in Pasadena.

The team will display its report on June 3 at the American Astronomical Society meeting
in Albuquerque, N.M.

“Every galaxy is thought to have contained a quasar at some point in its lifetime. We
wanted a good estimate of the number of quasars existing early in the life of the universe to
compare to the numbers of black holes we see in the centers of galaxies today,” Lacy said.

Quasars are thought to be caused by black holes that reside at the centers of galaxies and
attract matter from their host galaxies. As the matter falls into the black hole, it heats up and
glows brightly, producing a quasar. Because the gas is so hot, many quasars appear very blue in
color. Red quasars, however, have smoke-like dust in front of them. This dust absorbs the blue
light from the quasar, making it appear redder and fainter than it would otherwise.

Red quasars, which are less common than normal quasars, are difficult to detect because
their colors make them hard to distinguish from stars. To find red quasars, Lacy and his team
first matched two surveys revealing the positions of existing quasars, among other objects. The
two surveys used were the near-infrared Two Micron All-Sky Survey, carried out by the
University of Massachusetts and processed at the JPL/Caltech Infrared Processing and Analysis
Center in Pasadena, and the Faint Images of the Radio Sky at Twenty-centimeters survey,
conducted by R.H. Becker, R.L. White, and D.J. Helfand using the Very Large Array, about 50
miles west of Socorro, New Mexico.

To determine which of the existing quasars were red, the team then used digitized
Palomar Observatory sky survey plates, which show images of the sky in visible light. Red
quasars were faint or invisible in these plates because of the dust in front of them, but were
detected in the infrared. Halfway through their project, Lacy and his team had already found 17
of the reddest quasars known.

“Seventeen is a big number because it implies that there are a lot more red quasars in the
universe that we have yet to find,” Lacy said.

Lacy’s team suspects there are many quasars that are even redder than those they
observed. They believe these objects, called Quasar-2’s, are just as common as normal quasars.
These highly reddened quasars were undetectable through their methods; however, other surveys
have reported that they exist.

Lacy co-authored the report with M. Gregg and R.H. Becker, University of California,
Davis and the Institute of Geophysics and Planetary Physics Lawrence Livermore National
Laboratory, Livermore, Calif.; R.L. White, the Space Telescope Science Institute, Baltimore,
Md.; and E. Glikman and D.J. Helfand, Columbia University, New York, N.Y.

The Faint Images of the Radio Sky at Twenty-centimeters survey is supported by the
National Science Foundation, Arlington, Va.; the Institute for Geophysics and Planetary Physics
Lawrence Livermore National Laboratory; the California Space Institute of the University of
California; the Space Telescope Science Institute; Columbia University; Sun Microsystems,
Santa Clara, Calif.; the North Atlantic Treaty Organization, Brussels, Belgium; and the National
Geographic Society, Washington, D.C.

The Space Infrared Telescope Facility Science Center will handle science operations for
the Space Infrared Telescope Facility mission, launching next year. The mission is managed by
NASA’s Jet Propulsion Laboratory, Pasadena, Calif., for NASA’s Office of Space Science,
Washington, D.C.