The all-sky image draws on nine years' worth of data from a now-retired spacecraft dubbed the Wilkinson Microwave Anisotropy Probe (WMAP).
WMAP launched in 2001 and from its perch a million miles away from Earth (in the direction opposite the Sun) it scanned the heavens, mapping out the afterglow of the hot, young universe with unprecedented accuracy.
"We are just a speck in the vastness of the Universe, so it is amazing that we have the ability to answer fundamental questions about the vast universe around us, but the WMAP team has done just that," Charles Bennett, an astrophysicist at Johns Hopkins University who heads the team, wrote in an email to SPACE.Com.
"It was possible because we can detect and study the ancient light, the oldest light in the Universe," Bennett said.
The image maps the temperature of the radiation left over from the Big Bang, at a time when the Universe was only 375,000 years old.
It shows a temperature range of plus-or-minus 200 microKelvin, with fluctuations in the so-called cosmic microwave background radiation appearing here as colour differences.
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These patterns allow astronomers to predict what could have possibly happened earlier, and what has happened in the billions of year since the Universe's infancy.
As such, the spacecraft has been instrumental in pushing forward cosmological theories about the nature and origin of the Universe.
Among other revelations, the data from WMAP revealed a much more precise estimate for the age of the Universe