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Dark Energy Camera captures its first images

Dark Energy Camera captures its first images
Zoomed-in image of barred spiral galaxy NGC 1365, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
Zoomed-in image of barred spiral galaxy NGC 1365, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
View 17 Images
Zoomed-in image of the center of the globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
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Zoomed-in image of the center of the globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
Zoomed-in image of barred spiral galaxy NGC 1365, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
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Zoomed-in image of barred spiral galaxy NGC 1365, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
Zoomed-in image of the Fornax cluster of galaxies, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
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Zoomed-in image of the Fornax cluster of galaxies, around 60 million light years from Earth (Image: Dark Energy Survey Collaboration)
Composite image of globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
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Composite image of globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
Small Magellanic Cloud, a dwarf galaxy, around 200,000 light years from Earth, a satellite of the Milky Way (Image: Dark Energy Survey Collaboration)
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Small Magellanic Cloud, a dwarf galaxy, around 200,000 light years from Earth, a satellite of the Milky Way (Image: Dark Energy Survey Collaboration)
The DEC features 62 charged-coupled devices (CCDs), which record a total of 570 megapixels per snapshot (Image: Fermilab)
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The DEC features 62 charged-coupled devices (CCDs), which record a total of 570 megapixels per snapshot (Image: Fermilab)
The DEC, mounted on the Blanco telescope in Chile (Image: Dark Energy Survey Collaboration)
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The DEC, mounted on the Blanco telescope in Chile (Image: Dark Energy Survey Collaboration)
The DEC, mounted on the Blanco telescope in Chile (Image: Dark Energy Survey Collaboration)
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The DEC, mounted on the Blanco telescope in Chile (Image: Dark Energy Survey Collaboration)
DEC telescope simulator at Fermilab (Image: Fermilab)
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DEC telescope simulator at Fermilab (Image: Fermilab)
Composite image of globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
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Composite image of globular star cluster 47 Tucanae, around 17,000 light years from Earth (Image: Dark Energy Survey Collaboration)
Artist's rendering of the DEC inside the frame that supports the camera in the Blanco telescope (Image: Fermilab/Dark Energy Survey Collaboration)
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Artist's rendering of the DEC inside the frame that supports the camera in the Blanco telescope (Image: Fermilab/Dark Energy Survey Collaboration)
Artist’s rendering of the 570-megapixel DEC (Image: Fermilab/Dark Energy Survey Collaboration)
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Artist’s rendering of the 570-megapixel DEC (Image: Fermilab/Dark Energy Survey Collaboration)
The Blanco telescope in Chile as seen at nighttime (Image: T. Abbott and NOAO/AURA/NSF)
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The Blanco telescope in Chile as seen at nighttime (Image: T. Abbott and NOAO/AURA/NSF)
The Blanco telescope in Chile(Image: T. Abbott and NOAO/AURA/NSF)
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The Blanco telescope in Chile(Image: T. Abbott and NOAO/AURA/NSF)
The 4 meter Blanco telescope. The green circle marks the location of the prime focus cage where the Dark Energy Camera will be mounted (Image: CTIO/AURA/NSF)
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The 4 meter Blanco telescope. The green circle marks the location of the prime focus cage where the Dark Energy Camera will be mounted (Image: CTIO/AURA/NSF)
Scientists build a prototype of the DEC (Image: Fermilab)
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Scientists build a prototype of the DEC (Image: Fermilab)
The Blanco telescope which the DEC is mounted upon, located in the Chilean Andes (Photo: NOAO/AURA/NSF)
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The Blanco telescope which the DEC is mounted upon, located in the Chilean Andes (Photo: NOAO/AURA/NSF)
View gallery - 17 images

The Dark Energy Camera (DEC) has captured an initial batch of images as part of an ongoing quest to afford scientists with a better understanding of dark energy. The images were taken by the 570-megapixel behemoth from its location within the Chilean Andes on September 12 while undergoing a series of tests. Scientists hope it may soon help answer one of the biggest mysteries in physics: why the expansion of the universe is speeding up.

Reportedly the world’s most powerful digital camera, the DEC is the product of eight years of collaboration between scientists, engineers, and technicians based on three continents, as part of the Dark Energy Survey (DES) project.

The DEC is able to capture light from over 100,000 galaxies, up to 8 billion light years away, in each shot. An array of 62 charged-coupled devices boasts unprecedented sensitivity to red light, which allows the DEC to more accurately measure redshifted light emitted from very distant objects. The DEC also sports a 13-foot (roughly four-meter) light-gathering mirror.

The DEC camera was constructed at the U.S. Department of Energy’s (DOE) Fermi National Accelerator Laboratory in Batavia, Illinois, and has been mounted upon the Victor M. Blanco telescope, located at the National Science Foundation’s Cerro Tololo Inter-American Observatory (CTIO) in Chile.

The Blanco telescope which the DEC is mounted upon, located in the Chilean Andes (Photo: NOAO/AURA/NSF)
The Blanco telescope which the DEC is mounted upon, located in the Chilean Andes (Photo: NOAO/AURA/NSF)

“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, associate director of science for high energy physics with the U.S. Department of Energy. “The results of this survey will bring us closer to understanding the mystery of dark energy, and what it means for the universe.”

DES scientists will use the new camera to carry out the largest galaxy survey ever undertaken, and the resulting data will be harnessed to carry out four probes of dark energy, studying galaxy clusters, supernovae, the large-scale clumping of galaxies, and weak gravitational lensing. This represents the first time scientists will be able to conduct all four probes in a single experiment.

The DEC is still undergoing tests and is expected to begin operation in December. Over the following five years, the survey will create detailed color images of one-eighth of the sky, or 5,000 square degrees, in order to discover and measure 300 million galaxies, 100,000 galaxy clusters and 4,000 supernovae.

The DES is funded by the U.S. Department of Energy and National Science Foundation, in addition to funding agencies in the United Kingdom, Spain, Brazil, Germany and Switzerland, and participating DES institutions.

Source: Dark Energy Survey

View gallery - 17 images
7 comments
7 comments
Stian Eklund
Amazing, what wonderful times we live in!
Dana Lawton
The expansion of the universe is expanding because the the gravitational pull of the expanding mass is decreasing as that mass spreads further.
Slowburn
So they are looking at red light to see the Dark Energy that goes with the Dark Matter that lets them keep using the same model of the universe that doesn't work without matter nobody has seen and energy that no one has sensed.
Fretting Freddy the Ferret pressing the Fret
Dana, that doesn't explain the force behind the acceleration of the expansion.
Assuming a scenario where this expansion goes on and on, more galaxies will move beyond our observable universe at a point where nothing will be visible in the night sky. But that's a very far time in the future where the earth has long ceased to exist.
voluntaryist
Slowburn: I agree. Also, how do they know the 'verse is expanding faster? What is their point of reference? Have they found the center? Isn't all speed relative?
Paul Perkins
Well, we all know the speed of light, so what is the speed of Dark?
gizmagister
Paul, the "speed of Dark" is the Speed of Light times the square root of minus 1. ;)