Microwaves passing through superclusters would thus keep some of the gained energy as they leave, while microwaves passing through supervoids would lose energy.
The effect would create hot and cold regions in maps of the cosmic microwave background, a temperature difference that is visible in the new image as red and orange or blue areas.
Such an influence of dark energy on the microwave background has been observed before. But previous studies gave only a 1-in-20 chance that the effect was real and not the result of random temperature fluctuations.
Szapudi's team examined 50 superclusters and 50 supervoids and found with a high degree of precision that the amount of microwave heating and cooling is consistent with an accelerating universe.
"The most plausible explanation is dark energy," Szapudi said.
(Related: "Future Universe Will 'Stop Expanding,' Experts Suggest" [June 4, 2007].)
The research will be detailed in an upcoming issue of the Astrophysical Journal Letters.
Adam Riess is an astrophysicist at the Space Telescope Science Institute in Baltimore, Maryland. His team published one of the first papers on dark energy more than a decade ago.
Riess said that while the new study strengthens the case for dark energy's existence, it sheds little light on the nature of the mysterious force.
"All of the studies of this generation are good enough to just see the presence of dark energy, but usually not enough to nail down its properties to great precision," Riess said. "I think this study falls into that category."
Robert Kirshner, an astrophysicist at the Harvard-Smithsonian Center for Astrophysics, agreed.
"These measurements are too new for us to know if they will help determine the properties of dark energy," Kirshner said.
"But it is always good to have another route to show that dark energy is real."
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