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Hawaiian telescope presents rare infrared view of the deep Universe

Hawaiian telescope presents rare infrared view of the deep Universe
Zoomed in infrared view of 0.4 percent of the UDS field
Zoomed in infrared view of 0.4 percent of the UDS field
View 12 Images
Zoomed in infrared view of 0.4 percent of the UDS field
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Zoomed in infrared view of 0.4 percent of the UDS field
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in infrared view of 0.4 percent of the UDS field
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Zoomed in infrared view of 0.4 percent of the UDS field
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
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Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
View gallery - 12 images

Astronomers have released a stunning infrared viewof the deep Universe containing a number of galaxies created in the firstbillion years following the birth of the cosmos. Theimage is the result of over 1,000 hours of exposure time from the3.8-m (12.4-ft) United Kingdom Infrared Telescope (UKIRT)located near the summit of Mauna Kea in Hawaii.

The recently released images form part of theUltra-Deep Survey (UDS), which is the most far-reaching of fiveseparate endeavours thatform the UKIRT Infrared Deep Sky Survey (UKIDSS). The UDS imagingcampaign focused on an area the equivalent of four times the fullmoon in the night sky. The impressive infrared capabilities of theUKIRT telescope were vital to the success of the campaign in order tocombat a phenomenon known as "redshift."

Redshift occurs when light from distant stars isstretched into longer wavelengths as it travels the vast cosmicdistance from its source to our telescopes. Infraredtelescopes are best suited to capturing this ancient light.

Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source
Zoomed in view of a small section of the UDS field, containing ancient galaxies imaged as they were 9 billion years ago when the light left its source

UDS contains around 250,000 ancient galaxies thatwere created relatively soon after the cataclysmic birth of theUniverse via the Big Bang. As with all astronomy images, we arenever viewing the subject of our observations in real time. Light isknown to travel at 299,792,458 meters per second through a vacuum,and while this may sound stupendously fast, it still takes billionsof years to travel the vast gulf that separates the galaxies.

On average, light emitted by the galaxies captured in the UDSsurvey left its source 9 billion years ago, so we are essentiallylooking at the structures as they were at that time. Analyzing such alarge sample of ancient galaxies could allow astronomers to fill in anumber of blanks regarding the formation and evolution of the vastcosmic structures.

For example, the data could explain why the mostmassive galaxies are elliptical in shape, while medium sized galaxies,such as our own Milky Way, often take a disk-like form with pronouncedspiral arms, and even shed light on one of the Universe's mostenigmatic phenomenon, dark matter.

Source: University of Nottingham

View gallery - 12 images
2 comments
2 comments
Arahant
Imagine if you could look at a picture of the earth, billions of years ago(before pictures even existed, or even any life for that matter). The idea seems like science-fiction, we can't go back in time... the visual information from that period is lost.
And yet because of the laws of the universe, we can look into the deepest parts of space and literally see back in time, the picture(s) above, while they are composites and slightly modified, are basically pictures from so incredible long ago in universe... it's so easy to get desensitized with these big numbers.... hundreds of thousands, millions.. billions... we know they are big numbers but I don't think we are capable of even coming to close to comprehending how big they are, or in this case how long they are... but when you really take some time to think about it, it boggles the mind.
And a picture is worth a thousand words.
Somewhere out there, our galaxy is still in its infancy, or our solar system hasnt even been born yet.
Lawnmowerman
The red shift is considered to be due to the recession velocity, which is a function of distance.