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DUKAS_124253811_EYE
ESA's Test-Bed Telescope 2, located at ESO’s La Silla Observatory in Chile, looks out over the Atacama Desert at sunset.
Pretty in pink, the Test-Bed Telescope 2, located at ESOÕs La Silla Observatory in Chile, looks out over the Atacama Desert at sunset. The Moon can be seen rising in the left of the image.
Credit: ESA / eyevine
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ESA / eyevine -
DUKAS_119600779_EYE
Beauty From Chaos
Appearing within the boundless darkness of space, the NASA/ESA Hubble Space Telescopevïs snapshot of NGC 34 looks more like an otherworldly, bioluminescent creature from the deep oceans than a galaxy. Lying in the constellation Cetus (The Sea Monster), the galaxyvïs outer region appears almost translucent, pinpricked with stars and strange wispy tendrils. The main cause for this galaxyvïs odd appearance lies in its past. If we were able to reverse time by a few million years, we would see two beautiful spiral galaxies on a direct collision course. When these galaxies collided into one another, their intricate patterns and spiral arms were permanently disturbed. This image shows the galaxy's bright centre, a result of this merging event that has created a burst of new star formation and lit up the surrounding gas. As the galaxies continue to intertwine and become one, NGC 34vïs shape will become more like that of an peculiar galaxy, devoid of any distinct shape.vä In the vastness of space, collisions between galaxies are quite rare events, but they can be numerous in mega-clusters containing hundreds or even thousands of galaxies.
Credit: ESA / eyevine
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ESA / eyevine -
DUKAS_189216392_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216359_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216356_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216353_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216350_NUR
IMAP Launch
A SpaceX Falcon 9 rocket carries the NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216323_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216308_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216305_NUR
IMAP Launch
A SpaceX Falcon 9 rocket carries the NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216302_NUR
IMAP Launch
A SpaceX Falcon 9 rocket carries the NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_189216208_NUR
IMAP Launch
A SpaceX Falcon 9 rocket lifts off from launch pad 39A at the Kennedy Space Center with NASA Science probes IMAP, Carruthers, and SWFO from NOAA. They orbit the Lagrange-1 point at 1.6 million km away from Earth. (Photo by Manuel Mazzanti/NurPhoto) -
DUKAS_143405391_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
A view of Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
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© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405392_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
A view of Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405362_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
A view of Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405387_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Ian Jones, CEO of Goonhilly, looking around Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405390_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Ian Jones, CEO of Goonhilly, looking around Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405356_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Ian Jones, CEO of Goonhilly, looking around Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405359_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Ian Jones, CEO of Goonhilly, looking around Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405353_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Ian Jones, CEO of Goonhilly, looking around Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405358_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Kevin Wilkes, pictured at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405395_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
A picture of the TV screens in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405393_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405361_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405315_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405388_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405357_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405360_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405394_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405354_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405389_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_143405355_EYE
Goonhilly - the station supporting Nasa's Artemis moon mission from Cornwall.
History-rich communcation centre in Lizard peninsula will track the rocket using its Merlin antenna.
Mission control in Houston and the Kennedy Space Center in Florida are the places most closely associated with Nasa’s Artemis 1 moon adventure but a lesser-known spot on a remote heath in the far south-west of Britain is also playing a crucial part.
When the mission does blast off, hopefully later this week, scientists at Goonhilly Earth Station on the Lizard peninsula in Cornwall will help Nasa track the rocket using a giant deep space antenna nicknamed Merlin, and then command six small research satellites that are piggy-backing a ride on Artemis.
Beth Sheppard, pictured in the control room at Goonhilly Earth Station in Cornwall. The station will be assisting with Nasa's latest mission to the moon, named Artemis 1. Photo taken on Tuesday 30 August 2022.
© Jonny Weeks / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_133690018_EYE
Sail of stars
The spiral arms of the galaxy NGC 3318 are lazily draped across this image from the NASA/ESA Hubble Space Telescope. This spiral galaxy lies in the constellation Vela and is roughly 115 light-years away from Earth. Vela was originally part of a far larger constellation, known as Argo Navis after the fabled ship Argo from Greek mythology, but this unwieldy constellation proved to be impractically large. Argo Navis was split into three separate parts called Carnina, Puppis, and Vela — each named after part of the Argo. As befits a galaxy in a nautically inspired constellation, the outer edges of NGC 3318 almost resemble a ship’s sails billowing in a gentle breeze.
Despite its placid appearance, NGC 3318 has played host to a spectacularly violent astronomical phenomenon, a titanic supernova first detected by an amateur astronomer in 2000. Thanks to NGC 3318’s distance from Earth, the original supernova must have taken place in or around 1885. Coincidentally, this was the year in which the only supernova ever to be detected in our neighbouring galaxy Andromeda was witnessed by 19th-century astronomers.
Credit: ESA/Hubble & NASA, ESO, R. J. Foley; CC BY 4.0 Acknowledgement: R. Colombari / eyevine
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(FOTO: DUKAS/EYEVINE)
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Red velvet Mars
Red velvet Mars.
Like a sprinkle of powdered sugar on a rich red velvet cake, this scene from the ESA/Roscosmos ExoMars Trace Gas Orbiter captures the contrasting colours of bright white water-ice against the rusty red martian soil.
This delightful image was taken 5 July 2021 and soaks in the view of a 4 km-wide crater in MarsÕ north polar region of Vastitas Borealis, centred at 70.6 ¡N/230.3¡E.
The crater is partially filled with water ice, which is also particularly predominant on its north-facing slopes that receive fewer hours of sunlight on average throughout the year.
The dark material clearly visible on the crater rim Ð giving it a somewhat scorched appearance Ð likely consists of volcanic materials such as basalt.
Most of the surrounding terrain is ice free, but has been shaped by ongoing aeolian processes. The streaks at the bottom right of the image are formed by winds that have removed the brighter iron oxide dust from the surface, exposing a slightly darker underlying substrate.
TGO arrived at Mars in 2016 and began its full science mission in 2018. The spacecraft is not only returning spectacular images, but also providing the best ever inventory of the planetÕs atmospheric gases, and mapping the planetÕs surface for water-rich locations. It will also provide data relay services for the second ExoMars mission comprising the Rosalind Franklin rover and Kazachok platform, when it arrives on Mars in 2023.Credit: ESA / eyevine
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Webb liftoff on Ariane 5
Webb liftoff on Ariane 5.
The James Webb Space Telescope lifted off on an Ariane 5 rocket from Europe’s Spaceport in French Guiana, at 13:20 CET on 25 December on its exciting mission to unlock the secrets of the Universe.
Credit: ESA / eyevine
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Galileo satellites 27-28 liftoff
Galileo satellites 27 – 28 lifted off by Soyuz launcher VS26 from Europe’s Spaceport in French Guiana at 01:19 CET on 5 December (4 December at 21:19 local Kourou time).
Credit: S MARTIN/ESA/CNES/Arianespace/Optique Vidéo du CSG / eyevine
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Mini-jet found near milky way’s supermassive black hole
Hubble has found circumstantial evidence that the black hole is still smoldering long after the earlier outburst. Hubble astronomers' evidence is like doing an archeological dig to try and peer through the interstellar pollution of dense sheets of dust and gas between Earth and the galactic center, 27,000 light-years away. Hubble photographed a bright knot of gas that has been impacted by an invisible jet from the black hole, that is merely 15 light-years from it. The black hole must have shown brilliantly billions of years ago as a quasar (quasi-stellar object), when our young galaxy was feeding on lots of infalling gas. But after all this time the black hole still goes through fits and starts, and is not ready for napping as long as there is a snack around.
This image presents a composite view of X-rays, molecular gas, and warm ionized gas near the galactic center. The graphic of a translucent, vertical white fan is added to show the suggested axis of a mini-jet from the supermassive black hole at the galaxy’s heart. The orange-colored features are of glowing hydrogen gas. One such feature, at the top tip of the jet is interpreted as a hydrogen cloud that has been hit by the outflowing jet. The jet scatters off the cloud into tendrils that flow northward. Farther down near the black hole are X-ray observations of superheated gas colored blue and molecular gas in green. These data are evidence that the black hole occasionally accretes stars or gas clouds, and ejects some of the superheated material along its spin axis.
Credit: NASA, ESA, Gerald Cecil (UNC-Chapel Hill), J. DePasquale (STScI); CC BY 4.0 / eyevine
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NASA, ESA, Gerald Cecil (UNC-Chapel Hill), J. DePasquale (STScI); CC BY 4.0/eyevine -
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Hubble finds a black hole igniting star formation in a dwarf galaxy
Black holes are often described as the monsters of the universe—tearing apart stars, consuming anything that comes too close, and holding light captive. Detailed evidence from the NASA/ESA Hubble Space Telescope, however, shows a black hole in a new light: fostering, rather than suppressing, star formation. Hubble imaging and spectroscopy of the dwarf starburst galaxy Henize 2-10 clearly show a gas outflow stretching from the black hole to a bright star birth region like an umbilical cord, triggering the already dense cloud into forming clusters of stars. Astronomers have previously debated that a dwarf galaxy could have a black hole analogous to the supermassive black holes in larger galaxies. Further study of dwarf galaxies, which have remained small over cosmic time, may shed light on the question of how the first seeds of supermassive black holes formed and evolved over the history of the universe.
This dwarf starburst galaxy Henize 2-10 sparkles with young stars in this Hubble visible-light image. The bright region at the center, surrounded by pink clouds and dark dust lanes, indicates the location of the galaxy's massive black hole and active stellar nurseries.
Credit: NASA, ESA, Z. Schutte (XGI), A. Reines (XGI), A. Pagan (STScI); CC BY 4.0 / eyevine
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NASA, ESA, Z. Schutte (XGI), A. Reines (XGI), A. Pagan (STScI); CC BY 4.0 / eyevine -
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Location of possible planet in M51
A composite image of M51 with X-rays from NASA's Chandra and optical light from the NASA/ESA Hubble Space Telescope contains a box that marks the location of the possible planet candidate.
Credit: X-ray: NASA / CXC / SAO / R. DiStefano, et al.; Optical: NASA / ESA / STScI / Grendler / eyevine
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Dragon return from International Space Station - infographic
The SpaceX Crew Dragon is launched on a Falcon 9 rocket and brings four astronauts to the International Space Station. Launching from Cape Canaveral at NASA's Kennedy Space Center in Florida, USA, the spacecraft is the third type to bring ESA astronauts to space – and return to Earth.
Credit: ESA–K. Oldenberg / eyevine
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Crew-3 launch to the Space Station
ESA astronaut Matthias Maurer and NASA astronaut Raja Chari, Tom Marshburn and Kayla Barron liftoff to the International Space Station in the SpaceX Crew Dragon spacecraft “Endurance”.
Collectively known as “Crew-3”, the astronauts were launched from launchpad 39A at NASA’s Kennedy Space Center in Florida, USA. They will spend around six months living and working aboard the orbital outpost before returning to Earth.
It is the first space mission for Matthias, who will be the 600th human to fly to space. He chose the name “Cosmic Kiss” for his mission as a declaration of love for space.
Matthias has a background in materials science and looks forward to supporting a wide range of science and research in orbit. The work he carries out throughout his mission will contribute to the success of future space missions and help enhance life on Earth.
Visit the Cosmic Kiss mission page to learn more about Matthias’s mission.
Credit: Stephane Corvaja / ESA / eyevine
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Crew-3 launch to the Space Station
ESA astronaut Matthias Maurer and NASA astronaut Raja Chari, Tom Marshburn and Kayla Barron liftoff to the International Space Station in the SpaceX Crew Dragon spacecraft “Endurance”.
Collectively known as “Crew-3”, the astronauts were launched from launchpad 39A at NASA’s Kennedy Space Center in Florida, USA. They will spend around six months living and working aboard the orbital outpost before returning to Earth.
It is the first space mission for Matthias, who is the 600th human to fly to space. He chose the name “Cosmic Kiss” for his mission as a declaration of love for space.
Matthias has a background in materials science and looks forward to supporting a wide range of science and research in orbit. The work he carries out throughout his mission will contribute to the success of future space missions and help enhance life on Earth.
Credit: Stephane Corvaja / ESA / eyevine
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Crew-3 walkout for launch
ESA astronaut Matthias Maurer and NASA astronaut NASA astronauts Raja Chari, Tom Marshburn and Kayla Barron walk out from the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida, USA, ready for launch.
Known as “Crew-3” the four astronauts will be launched to the International Space Station from launchpad 39A, aboard the SpaceX Crew Dragon spacecraft “Endurance”, atop a Falcon 9 rocket.
Initially scheduled for 31 October, the launch of Crew-3 was delayed by weather and a minor crew medical issue. With a favourable forecast and the crew in good health, liftoff is now planned for 02:03 GMT/03:03 CET Thursday 11 November. This is the first spaceflight for Matthias, who will be the 600th human to fly to space.
On Station, Matthias will become a long-duration crew member, spending around six months living and working in orbit. During this time, he will support more than 35 European experiments and numerous international experiments on board.
Visit the Cosmic Kiss mission page to learn more about Matthias’s mission.
Credit: Stephane Corvaja / ESA / eyevine
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NASA’s SpaceX Crew-2 Splashdown
ESA (European Space Agency) astronaut Thomas Pesquet, left, NASA astronauts Megan McArthur and Shane Kimbrough, and Japan Aerospace Exploration Agency (JAXA) astronaut Aki Hoshide, right, are seen inside the SpaceX Crew Dragon Endeavour spacecraft onboard the SpaceX GO Navigator recovery ship shortly after having landed in the Gulf of Mexico off the coast of Pensacola, Florida, Monday, Nov. 8, 2021. NASA’s SpaceX Crew-2 mission is the second operational mission of the SpaceX Crew Dragon spacecraft and Falcon 9 rocket to the International Space Station as part of the agency’s Commercial Crew Program. Photo Credit: (NASA/Aubrey Gemignani)
Credit: NASA/Aubrey Gemignani / ESA / eyevine
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One of a pair
In this image the NASA/ESA Hubble Space Telescope peers into the spiral galaxy NGC 1317 in the constellation Fornax, more than 50 million light-years from Earth. This galaxy is one of a pair, but NGC 1317’s rowdy larger neighbour NGC 1316 lies outside Hubble’s field of view. Despite the absence here of its neighbouring galaxy, NGC 1317 is accompanied in this image by two objects from very different parts of the Universe. The bright point ringed with a criss-cross pattern is a star from our own galaxy surrounded by diffraction spikes, whereas the redder elongated smudge is a distant galaxy lying far beyond NGC 1317. The data presented in this image are from a vast observing campaign of hundreds of observations from Hubble’s Wide Field Camera 3 and Advanced Camera for Surveys. Combined with data from the ALMA array in the Atacama desert, these observations help astronomers chart the connections between vast clouds of cold gas and the fiercely hot young stars that form within them. ALMA’s unparalleled sensitivity at long wavelengths identified vast reservoirs of cold gas throughout the local Universe, and Hubble’s sharp vision pinpointed clusters of young stars, as well as measuring their ages and masses. Often the most exciting astronomical discoveries require this kind of telescope teamwork, with cutting-edge facilities working together and providing astronomers with information across the electromagnetic spectrum. The same applies to future telescopes, with Hubble’s observations laying the groundwork for future science with the NASA/ESA/CSA James Webb Space Telescope.
Credit: ESA/Hubble & NASA, J. Lee and th / eyevine
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Cosmological curiosity
This image from the NASA/ESA Hubble Space Telescope features the spiral galaxy Mrk 1337, which is roughly 120 million light-years away from Earth in the constellation Virgo. Hubble’s Wide Field Camera 3 snapped Mrk 1337 at a wide range of ultraviolet, visible and infrared wavelengths, producing this richly detailed image. Mrk 1337 is a weakly barred spiral galaxy, which as the name suggests means that the spiral arms radiate from a central bar of gas and stars. Bars occur in roughly half of spiral galaxies, including our own galaxy the Milky Way.
These observations are part of a campaign to improve our knowledge of how fast the universe is expanding. They were proposed by Adam Riess, who was awarded a Nobel Laureate in physics 2011 for his contributions to the discovery of the accelerating expansion of the Universe, alongside Saul Perlmutter and Brian Schmidt.
Credit: ESA / Hubble & NASA / A. Riess et al / ESA / eyevine
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Crew-3 rehearse for launch
ESA astronaut Matthias Maurer and NASA astronauts Raja Chari, Tom Marshburn and Kayla Barron move through the steps for their upcoming launch during a dry dress rehearsal at NASA’s Kennedy Space Center in Florida, USA.
As members of Crew-3, they will be launched to the International Space Station on SpaceX’s Crew Dragon spacecraft “Endurance”. The first launch attempt is scheduled for 07:21 CET (06:21 GMT, 02:21 EDT) Sunday 31 October 2021, with a backup date of 3 November.
This will be the first spaceflight for Matthias who has selected the name “Cosmic Kiss” for his six months in orbit. During the flight to and from space, he and Kayla will be what is known as “mission specialists”. They will work with commander Raja Chari and pilot Tom Marshburn to monitor the spacecraft during the dynamic launch and re-entry phases of flight.
On Station, Matthias will become a long-duration crew member, spending around six months living and working in orbit. During this time, he will support more than 35 European experiments and numerous international experiments on board.
Matthias is the second European to fly on a SpaceX Crew Dragon. The first was ESA astronaut Thomas Pesquet who flew as part of Crew-2.
Credit: Stephane Corvaja / ESA / eyevine
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Crew-3 say cheese
ESA astronaut Matthias Maurer and his NASA crew mates Raja Chari, Thomas Marshburn and Kayla Barron are all smiles as they arrive at NASA’s Kennedy Space Center in Florida, USA on 26 October 2021.
Collectively, the astronauts make up Crew-3 and will travel to the International Space Station on the SpaceX Crew Dragon spacecraft “Endurance”. The first launch opportunity for Crew-3 is 07:21 CET (06:21 GMT, 02:21 EDT) Sunday 31 October 2021, with a backup date of 3 November.
The Dragon will dock with the Space Station 22 hours after launch, allowing for a short overlap with the Crew-2 members who are due to depart the Station in the coming week.
With both Matthias and ESA astronaut and current Space Station Commander Thomas Pesquet on board, Europe will have two astronauts resident in space – a rare occurrence.
The name of Matthias’s mission is “Cosmic Kiss”. This is Matthias’s first mission, and he will be the 600th human to fly to space.
Once in orbit, Matthias will spend around six months living and working in microgravity as he supports more than 35 European experiments and numerous international experiments on board.
Matthias is also certified to perform Extra Vehicular Activity (EVA) in both the Russian Orlan and American EMU spacesuits. He is expected to perform a Russian spacewalk during his mission as part of initial operations for the European Robotic Arm (ERA) that was launched to the Station in July 2021.
Credit: Stephane Corvaja / ESA / eyevine
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Four filter fusion
This stellar whirlpool is a spiral galaxy named NCG 7329, which has been imaged by Hubble’s Wide Field Camera 3 (WFC3). Creating a colourful image such as this one using a telescope such as Hubble is not as straightforward as pointing and clicking a camera. Commercial cameras will typically try to collect as much light of all visible wavelengths as they can, in order to create the most vibrant images possible. In contrast, raw images collected by Hubble are always monochromatic, because astronomers typically want to capture very specific ranges of wavelengths of light at any time, in order to do the best, most accurate science possible. In order to control which wavelengths of light will be collected, Hubble’s cameras are equipped with a wide variety of filters, which only allow certain wavelengths of light to reach the cameras’ CCDs (a CCD is a camera’s light sensor — phone cameras also have CCDs!).
How are the colourful Hubble images possible given that the raw Hubble images are monochromatic? This is accomplished by combining multiple different observations of the same object, obtained using different filters. This image, for example, was processed from Hubble observations made using four different filters, each of which spans a different region of the light spectrum, from the ultraviolet to optical and infrared. Specialised image processors and artists can make informed judgements about which optical colours best correspond to each filter used. They can then colour the images taken using that filter accordingly. Finally, the images taken with different filters are stacked together, and voila! The colourful image of a distant galaxy is complete, with colours as representative of reality as possible.
Credit: ESA/Hubble & NASA, A. Riess et al.; CC BY 4.0 / eyevine
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Hubble experiences déjà vu
This jewel-bright Picture of the Week features the spiral galaxy NGC 2903. This image was captured using Hubble’s Advanced Camera for Surveys (ACS) and Wide Field Camera 3 (WFC3), which were installed on Hubble in 2002 and 2009 respectively. Interestingly, Hubble has observed this particular galaxy before, in 2001, when neither the ACS or the WFC3 had yet been installed. The 2021 image boasts higher resolution, which means that NGC 2903 is more finely detailed than in the 2001 image. The ACS and WFC2 collectively cover a wide range of ultraviolet, optical and infrared wavelengths, which means that the 2021 image also has superior wavelength coverage to that of its 20-year-old predecessor. The 2001 image was taken using the Wide Field Planetary Camera 2 (WFPC2), which was Hubble’s workhorse instrument from 1993 until 2009 when it was replaced by the WFC3.
Hubble has a long and fascinating history of crewed service missions, which were performed in order to correct for imperfections in Hubble’s mirror, to update Hubble’s technical systems, and to remove old instruments and install new ones. One of Hubble’s most remarkable features is it’s incredible longevity, and this would not have been possible with the great success of the servicing missions. The juxtaposition of the 2001 and 2021 images of NGC 2903 — both remarkable images for their time — highlights the value of a stable, accessible platform in space that can reliably collect data, not only year after year, but decade after decade.
Credit: ESA / Hubble & NASA, L. Ho, J. Lee and the PHANGS-HST Team / ESA / eyevine
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