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Editorial (Books, magazines and newspaper) - extended
Print and/or digital. Single use, any size, inside only. Single language only. Single territory rights for trade books; worldwide rights for academic books. Print run up to 5000. 7 years. (excludes advertising)
$175.00
Editorial (Books, magazines and newspaper) - standard
Print and/or digital. Single use, any size, inside only. Single language only. Single territory rights for trade books; worldwide rights for academic books. Print run up to 1500. 7 years. (excludes advertising)
$100.00
Corporate website, social media or presentation/talk
Web display, social media, apps or blogs.
Not for advertising. All languages. 1 year + archival rights
$190.00
Personal website, social media or presentation/talk
Web display, social media, apps, or blogs. Use in academic and non-commercial presentations/talks included. Not for commercial use or advertising. All languages. 5 years
$50.00
Personal products
Personal Prints, Cards, Gifts, Reference. 5 year term. Not for commercial use, not for public display, not for resale. example: For use on birthday cards sent to family members.
Galaxy cluster Abell 1689 - Gravitational lenses in Abell 1689 galaxy cluster - Galaxy cluster Abell 1689 is about 2.2 billion years ago - light in the constellation of the Virgin. This image shows, by a gravitational mirage effect, the deformed image of many galaxies located behind the cluster. Near infrared and visible image obtained by the Hubble space telescope in June 2002. 13 hours of installation. This representative color image is a composite of visible - light and near - infrared exposures taken in June 2002. Hubble peered straight through the center of one of the most massive galaxy clusters known, called Abell 1689. This required that Hubble gaze at the remote cluster, located 2.2 billion light - years away, for over 13 hours. The gravity of the cluster's trillion stars - - plus dark matter - - acts as a 2 - million - light - year - wide “” lens”” in space. This “” gravitational lens””” bends and magnifies the light of galaxies located far behind it. Although much more analysis is needed, Hubble astronomers speculate that some of the faintest objects in the picture are probably over 13 billion light - years away (redshift value 6). In the image hundreds of galaxies many billions of light - years away are smeared by the gravitational bending of light into a spider - web tracing of blue and red arcs of light. Though gravitational lensing has been studied previously with Hubble and ground - based telescopes, this phenomenon has never been seen before in such detail. The ACS picture reveals 10 times more arcs than would be seen by a ground - based telescope. The ACS is 5 times more sensitive and provides pictures that are twice as sharp as the previous work - horse Hubble cameras. So it can see the very faintest arcs with greater clarity. The picture presents an immense jigsaw puzzle for Hubble astronomers to spend months untangling. Interspersed with the foreground cluster are thousands of galaxies, which are lensed images of the galaxies i
Galaxy cluster Abell 1689 - Gravitational lenses in Abell 1689 galaxy cluster - Galaxy cluster Abell 1689 is about 2.2 billion years ago - light in the constellation of the Virgin. This image shows, by a gravitational mirage effect, the deformed image of many galaxies located behind the cluster. Near infrared and visible image obtained by the Hubble space telescope in June 2002. 13 hours of installation. This representative color image is a composite of visible - light and near - infrared exposures taken in June 2002. Hubble peered straight through the center of one of the most massive galaxy clusters known, called Abell 1689. This required that Hubble gaze at the remote cluster, located 2.2 billion light - years away, for over 13 hours. The gravity of the cluster's trillion stars - - plus dark matter - - acts as a 2 - million - light - year - wide “” lens”” in space. This “” gravitational lens””” bends and magnifies the light of galaxies located far behind it. Although much more analysis is needed, Hubble astronomers speculate that some of the faintest objects in the picture are probably over 13 billion light - years away (redshift value 6). In the image hundreds of galaxies many billions of light - years away are smeared by the gravitational bending of light into a spider - web tracing of blue and red arcs of light. Though gravitational lensing has been studied previously with Hubble and ground - based telescopes, this phenomenon has never been seen before in such detail. The ACS picture reveals 10 times more arcs than would be seen by a ground - based telescope. The ACS is 5 times more sensitive and provides pictures that are twice as sharp as the previous work - horse Hubble cameras. So it can see the very faintest arcs with greater clarity. The picture presents an immense jigsaw puzzle for Hubble astronomers to spend months untangling. Interspersed with the foreground cluster are thousands of galaxies, which are lensed images of the galaxies i