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NASA SATELLITE GLIMPSES UNIVERSE'S FIRST TRILLIONTH OF A SECONDThis finding, made with NASA's Wilkinson Microwave Anisotropy Probe ( WMAP ), is based on three years of continuous observations of the
cosmic microwave background ( CMB ), the afterglow light produced when the universe was less than a million years old.

WMAP polarization data allow scientists to discriminate between competing models of inflation for the first time. This is a milestone
in cosmology. "We can now distinguish between different versions of what happened within the first trillionth of a second of the universe," said WMAP Principal Investigator Charles Bennett of the Johns Hopkins University in Baltimore. "The longer WMAP observes, the
more it reveals about how our universe grew from microscopic quantum fluctuations to the vast expanses of stars and galaxies we see today."

Previous WMAP results focused on the temperature variations of this light, which provided an accurate age of the universe and insights
into its geometry and composition. The new WMAP observations give not only a more detailed temperature map, but also the first full-sky map
of the polarization of the CMB. This major breakthrough will enable scientists to obtain much deeper insight into what happened within
the first trillionth of a second of the universe. The WMAP results have been submitted to the Astrophysical Journal and are posted at

http://wmap.gsfc.nasa.gov/results

Big bang physics describes how matter and energy developed over the last 13.7 billion years. WMAP's observation of the blanket of cool
microwave radiation that permeates the universe shows patterns that mark the seeds of what grew into stars and galaxies. The patterns are
tiny temperature differences within this extraordinarily uniform light. WMAP discerns temperature fluctuations at levels finer than a
millionth of a degree.

WMAP can resolve features in the cosmic microwave background based on polarization, or the way light is changed by the environment through
which it passes. For example, sunlight reflecting off of a shiny object is polarized. Comparing the brightness of broad features to compact features in the microwave background, or afterglow light,
helps tell the story of the infant universe. One long-held prediction was the brightness would be the same for features of all sizes. In
contrast, the simplest versions of inflation predict the relative brightness decreases as the features get small, a trend seen in the
new data.

"This is brand new territory," said WMAP team member Lyman Page of Princeton University in Princeton, N.J. "The polarization data will
become stronger as WMAP continues to observe the microwave background. WMAP's new results heighten the urgency of seeking out inflation's gravitational wave sign. If gravitational waves are seen in future measurements, that would be solid evidence for inflation."

With a richer temperature map and the new polarization map, WMAP data favor the simplest versions of inflation. Generically, inflation
posits that, at the outset of the big bang, quantum fluctuations - short-lived bursts of energy at the subatomic level - were converted
by the rapid inflationary expansion into fluctuations of matter that ultimately enabled stars and galaxies to form. The simplest versions
of inflation predict that the largest-sized fluctuations will also be the strongest. The new results from WMAP favor this signature.

Inflation theory predicts that these same fluctuations also produced primordial gravitational waves whose distortion of space-time leaves a signature in the CMB polarization. This will be an important goal of future CMB measurements which, if found, would provide a stunning confirmation of inflation.

"Inflation was an amazing concept when it was first proposed 25 years ago, and now we can support it with real data," said WMAP team member
Gary Hinshaw of NASA's Goddard Space Flight Center in Greenbelt, Md.

WMAP, a partnership between Goddard and Princeton, was launched on June 30, 2001. The WMAP team includes researchers in U.S. and
Canadian universities and institutes. For images and information on the Web about WMAP, visit:

http://www.nasa.gov/vision/universe/wmap_pol.html

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