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World's most powerful digital camera records first images in hunt for dark energy

The new device will carry out the largest galaxy survey ever undertaken with its data used to complete four probes of dark energy.
Fornax_mosaic
Full Dark Energy Camera image of the Fornax cluster of galaxies, which lies about 60 million light years from Earth. The center of the cluster is the clump of galaxies in the upper portion of the image. The prominent galaxy in the lower right of the image is the barred spiral galaxy NGC 1365. // Credit: Dark Energy Survey Collaboration
Eight billion years ago, rays of light from distant galaxies began their long journey to Earth. That ancient starlight has now found its way to a mountaintop in Chile, where the newly constructed Dark Energy Camera, the most powerful sky-mapping machine ever created, has captured and recorded it for the first time.

That light may hold within it the answer to one of the biggest mysteries in physics — why the expansion of the universe is speeding up.

Scientists in the international Dark Energy Survey collaboration announced this week that the Dark Energy Camera, the product of eight years of planning and construction by scientists, engineers, and technicians on three continents, has achieved first light. The 570-megapixel camera took its first pictures of the southern sky September 12.

“The achievement of first light through the Dark Energy Camera begins a significant new era in our exploration of the cosmic frontier,” said James Siegrist, U.S. Department of Energy’s (DOE) associate director of science for high-energy physics. “The results of this survey will bring us closer to understanding the mystery of dark energy and what it means for the universe.”

The Dark Energy Camera was constructed at the DOE Fermi National Accelerator Laboratory in Batavia, Illinois, and is mounted on the Victor M. Blanco Telescope at the National Science Foundation’s Cerro Tololo Inter-American Observatory in Chile, which is the southern branch of the U.S. National Optical Astronomy Observatory (NOAO). With this device, roughly the size of a phone booth, astronomers and physicists will probe the mystery of dark energy, the force they believe is causing the universe to expand faster and faster.

“The Dark Energy Survey will help us understand why the expansion of the universe is accelerating, rather than slowing due to gravity,” said Brenna Flaugher from Fermilab. “It is extremely satisfying to see the efforts of all the people involved in this project finally come together.”

The Dark Energy Camera is the most powerful survey instrument of its kind, able to see light from more than 100,000 galaxies up to 8 billion light-years away in each snapshot. The camera’s array of 62 charged-coupled devices has an unprecedented sensitivity to red light and, along with the Blanco Telescope’s large light-gathering mirror, which spans 13 feet (4 meters) across, will allow scientists from around the world to pursue investigations ranging from studies of asteroids in our solar system to understanding the origins and fate of the universe.

“We’re very excited to bring the Dark Energy Camera online and make it available for the astronomical community through NOAO’s open-access telescope allocation,” said Chris Smith from the Cerro-Tololo Inter-American Observatory in Chile. “With it, we provide astronomers from all over the world a powerful new tool to explore the outstanding questions of our time, perhaps the most pressing of which is the nature of dark energy.”

Scientists in the Dark Energy Survey collaboration will use the new camera to carry out the largest galaxy survey ever undertaken and will use that data to carry out four probes of dark energy, studying galaxy clusters, supernovae, the large-scale clumping of galaxies, and weak gravitational lensing. This will be the first time all four of these methods will be possible in a single experiment.

The Dark Energy Survey is expected to begin in December, after the camera is fully tested, and will take advantage of the excellent atmospheric conditions in the Chilean Andes to deliver pictures with the sharpest resolution seen in such a wide-field astronomy survey. In just its first few nights of testing, the camera has already delivered images with excellent and nearly uniform spatial resolution.

Over five years, the survey will create detailed color images of one-eighth of the sky, or 5,000 square degrees, to discover and measure 300 million galaxies, 100,000 galaxy clusters, and 4,000 supernovae.

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