View larger. | A Hubble Space Telescope image of the 4 visible arcs associated with the Sunburst Arc galaxy. This exceedingly distant galaxy helps create one of the brightest gravitational lenses known. Within these 4 visible arcs are at least 12 images – 12 doppelgangers, or illusory images – of the galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Not all the lights in this Hubble Space Telescope image – released on November 7, 2019 – are stars. Many are galaxies in a galaxy cluster 4.6 billion light-years away. See the four partial arcs in the image, three in the upper right and the fourth on the lower left? These arcs are an illusion in space, created via the light of an even-more-distant galaxy – 11 billion light-years away – behind the galaxy cluster. The light of the very distant galaxy is bent by the closer, super-massive cluster. This is an example of gravitational lensing, predicted by Einstein’s relativity theory. The distant galaxy creates one of the brightest gravitational lenses known, which is why astronomers call it the Sunburst Arc.
Scientists recently studied the Sunburst Arc, using the Hubble Telescope. Their peer-reviewed study revealed the 12 doppelganger galaxies within those four arcs of light. The study was published in the journal Science on November 8. A statement at SpaceTelescope.org explained:
The mass of the galaxy cluster is large enough to bend and magnify the light from the more distant galaxy behind it. This process leads not only to a deformation of the light from the object, but also to a multiplication of the image of the lensed galaxy.
In the case of the Sunburst Arc, the lensing effect led to at least 12 images of the galaxy, distributed over four major arcs. Three of these arcs are visible in the top right of the image [above], while one counterarc is visible in the lower left — partially obscured by a bright foreground star within the Milky Way.
These scientists said that, using the Hubble Telescope and the effect of gravitational lensing – the bending of the light of distant objects in space by massive intervening objects – they can study distant objects otherwise too faint and too small even for Hubble’s instruments. That’s because, they said:
The lens makes various images of the Sunburst Arc between 10 and 30 times brighter.
This brightening via gravitational lensing lets the Hubble telescope view structures within the very distant galaxy as small as 520 light-years across! That’s an incredibly rare, detailed observation for an object 11 billion light-years away. In fact, that resolution – the seeing of features as small as 520 light-years across – compares reasonably well, these astronomers said, with star forming regions in galaxies in the space near our own Milky Way galaxy.
So the gravitational lensing effect of the Sunburst Arc gives astronomers a window on the very early universe. That’s because, as we all know, a galaxy that’s 11 billion light-years away is seen – not as it is now – but as it was 11 billion years ago. The astronomers said this essential fact about our universe – which happens because light doesn’t travel infinitely fast, but instead at a finite speed (186,000 miles per second or 299,992 km/s) – is letting these astronomers study a time in the early universe known as the epoch of reionization. That epoch began only 150 million years after the Big Bang. To learn more about that aspect of this study, read toward the bottom of the astronomers’ statement.
In the meantime, contemplate the images below … the multiple arcs of the Sunburst Arc, each one containing ghost images of the galaxy. Don’t we live in an interesting universe?
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Here’s a close-up of a Hubble image, showing one of 4 arcs formed of the light from the Sunburst Arc galaxy. Created by strong gravitational lensing, this bright arc of light contains at least 6 copies of the image of the very distant galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Hubble Space Telescope image of yet another of the 4 arcs formed of the light from the Sunburst Arc galaxy. This isn’t a material object in space. It’s an illusion of light and gravity, created by what’s called gravitational lensing. This bright arc of light contains at least 4 copies of the image of the Sunburst Arc galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al/SpaceTelescope.org.
This Hubble Space Telescope images shows another one of 4 arcs formed of the light from the Sunburst Arc galaxy. Created by strong gravitational lensing, this bright arc of light shows “at least” one copy of the image of the galaxy. There’s also a foreground star in this image, partially blocking the view of the arc. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Bottom line: The Sunburst Arc galaxy is part of a gravitational lens system. That is, it’s located behind a massive galaxy cluster, as seen from Earth, and the intervening cluster has bent its light into multiple arcs. A recent study revealed that the 4 bright arcs in this Hubble image contain 12 images of the galaxy – cosmic doppelgangers – 11 billion light-years away.
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View larger. | A Hubble Space Telescope image of the 4 visible arcs associated with the Sunburst Arc galaxy. This exceedingly distant galaxy helps create one of the brightest gravitational lenses known. Within these 4 visible arcs are at least 12 images – 12 doppelgangers, or illusory images – of the galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Not all the lights in this Hubble Space Telescope image – released on November 7, 2019 – are stars. Many are galaxies in a galaxy cluster 4.6 billion light-years away. See the four partial arcs in the image, three in the upper right and the fourth on the lower left? These arcs are an illusion in space, created via the light of an even-more-distant galaxy – 11 billion light-years away – behind the galaxy cluster. The light of the very distant galaxy is bent by the closer, super-massive cluster. This is an example of gravitational lensing, predicted by Einstein’s relativity theory. The distant galaxy creates one of the brightest gravitational lenses known, which is why astronomers call it the Sunburst Arc.
Scientists recently studied the Sunburst Arc, using the Hubble Telescope. Their peer-reviewed study revealed the 12 doppelganger galaxies within those four arcs of light. The study was published in the journal Science on November 8. A statement at SpaceTelescope.org explained:
The mass of the galaxy cluster is large enough to bend and magnify the light from the more distant galaxy behind it. This process leads not only to a deformation of the light from the object, but also to a multiplication of the image of the lensed galaxy.
In the case of the Sunburst Arc, the lensing effect led to at least 12 images of the galaxy, distributed over four major arcs. Three of these arcs are visible in the top right of the image [above], while one counterarc is visible in the lower left — partially obscured by a bright foreground star within the Milky Way.
These scientists said that, using the Hubble Telescope and the effect of gravitational lensing – the bending of the light of distant objects in space by massive intervening objects – they can study distant objects otherwise too faint and too small even for Hubble’s instruments. That’s because, they said:
The lens makes various images of the Sunburst Arc between 10 and 30 times brighter.
This brightening via gravitational lensing lets the Hubble telescope view structures within the very distant galaxy as small as 520 light-years across! That’s an incredibly rare, detailed observation for an object 11 billion light-years away. In fact, that resolution – the seeing of features as small as 520 light-years across – compares reasonably well, these astronomers said, with star forming regions in galaxies in the space near our own Milky Way galaxy.
So the gravitational lensing effect of the Sunburst Arc gives astronomers a window on the very early universe. That’s because, as we all know, a galaxy that’s 11 billion light-years away is seen – not as it is now – but as it was 11 billion years ago. The astronomers said this essential fact about our universe – which happens because light doesn’t travel infinitely fast, but instead at a finite speed (186,000 miles per second or 299,992 km/s) – is letting these astronomers study a time in the early universe known as the epoch of reionization. That epoch began only 150 million years after the Big Bang. To learn more about that aspect of this study, read toward the bottom of the astronomers’ statement.
In the meantime, contemplate the images below … the multiple arcs of the Sunburst Arc, each one containing ghost images of the galaxy. Don’t we live in an interesting universe?
EarthSky 2020 lunar calendars are available! They make great gifts. Order now. Going fast!
Here’s a close-up of a Hubble image, showing one of 4 arcs formed of the light from the Sunburst Arc galaxy. Created by strong gravitational lensing, this bright arc of light contains at least 6 copies of the image of the very distant galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Hubble Space Telescope image of yet another of the 4 arcs formed of the light from the Sunburst Arc galaxy. This isn’t a material object in space. It’s an illusion of light and gravity, created by what’s called gravitational lensing. This bright arc of light contains at least 4 copies of the image of the Sunburst Arc galaxy. Image via ESA/NASA/E. Rivera-Thorsen et al/SpaceTelescope.org.
This Hubble Space Telescope images shows another one of 4 arcs formed of the light from the Sunburst Arc galaxy. Created by strong gravitational lensing, this bright arc of light shows “at least” one copy of the image of the galaxy. There’s also a foreground star in this image, partially blocking the view of the arc. Image via ESA/NASA/E. Rivera-Thorsen et al./SpaceTelescope.org.
Bottom line: The Sunburst Arc galaxy is part of a gravitational lens system. That is, it’s located behind a massive galaxy cluster, as seen from Earth, and the intervening cluster has bent its light into multiple arcs. A recent study revealed that the 4 bright arcs in this Hubble image contain 12 images of the galaxy – cosmic doppelgangers – 11 billion light-years away.
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