English: Although it looks like the pattern of a shell on the beach, this intriguing spiral is in fact astronomical in nature. The Atacama Large Millimeter/submillimeter Array (ALMA) captured this remarkable image of a binary star system, where two stars — LL Pegasi and its companion — are locked in a stellar waltz, orbiting around their common centre of gravity. The old star LL Pegasi is continuously losing gaseous material as it evolves into a planetary nebula, and the distinct spiral shape is the imprint made by the stars orbiting in this gas.
The spiral spans light-years and winds around with extraordinary regularity. Based on the expansion rate of the spiralling gas, astronomers estimate that a new “layer” appears every 800 years — approximately the same time it takes for the two stars to complete one orbit around each other.
LL Pegasi was first highlighted about 10 years ago when the NASA/ESA Hubble Space Telescope obtained a picture of the almost-perfect spiral structure. This was the first time a spiral pattern had been found in material surrounding an old star. Now, ALMA’s observations, of which this image only shows one “cross-section”, have added an extra dimension to reveal the exquisitely-ordered 3D geometry of the spiral pattern. A full view of the 3D video can be seen in this video.
An additional image shows a composition of the ALMA and Hubble data.
This media was created by the European Southern Observatory (ESO). Their website states: "Unless specifically noted, the images, videos, and music distributed on the public ESO website, along with the texts of press releases, announcements, pictures of the week, blog posts and captions, are licensed under a Creative Commons Attribution 4.0 International License, and may on a non-exclusive basis be reproduced without fee provided the credit is clear and visible." To the uploader: You must provide a link (URL) to the original file and the authorship information if available.
dzielić się – kopiować, rozpowszechniać, odtwarzać i wykonywać utwór
modyfikować – tworzyć utwory zależne
Na następujących warunkach:
uznanie autorstwa – musisz określić autorstwo utworu, podać link do licencji, a także wskazać czy utwór został zmieniony. Możesz to zrobić w każdy rozsądny sposób, o ile nie będzie to sugerować, że licencjodawca popiera Ciebie lub Twoje użycie utworu.
https://creativecommons.org/licenses/by/4.0CC BY 4.0 Creative Commons Attribution 4.0 truetrue
Podpisy
Dodaj jednolinijkowe objaśnienie tego, co ten plik pokazuje
Niniejszy plik zawiera dodatkowe informacje, prawdopodobnie dodane przez aparat cyfrowy lub skaner użyte do wygenerowania tego pliku.
Jeśli plik był modyfikowany, dane mogą być częściowo niezgodne z parametrami zmodyfikowanego pliku.
Dostawca
ALMA (ESO/NAOJ/NRAO)/H. Kim et al.
Źródło
European Southern Observatory
Krótki tytuł
Celestial spiral with a twist
Tytuł lub opis obrazu
Although it looks like the pattern of a shell on the beach, this intriguing spiral is in fact astronomical in nature. The Atacama Large Millimeter/submillimeter Array (ALMA) captured this remarkable image of a binary star system, where two stars — LL Pegasi and its companion — are locked in a stellar waltz, orbiting around their common centre of gravity. The old star LL Pegasi is continuously losing gaseous material as it evolves into a planetary nebula, and the distinct spiral shape is the imprint made by the stars orbiting in this gas. The spiral spans light-years and winds around with extraordinary regularity. Based on the expansion rate of the spiralling gas, astronomers estimate that a new “layer” appears every 800 years — approximately the same time it takes for the two stars to complete one orbit around each other. LL Pegasi was first highlighted about 10 years ago when the NASA/ESA Hubble Space Telescope obtained a picture of the almost-perfect spiral structure. This was the first time a spiral pattern had been found in material surrounding an old star. Now, ALMA’s observations, of which this image only shows one “cross-section”, have added an extra dimension to reveal the exquisitely-ordered 3D geometry of the spiral pattern. A full view of the 3D video can be seen in this video. An additional image shows a composition of the ALMA and Hubble data. Links: ALMA and Hubble observe LL Pegasi 3D view of LL Pegasi
Warunki wykorzystania
Creative Commons Attribution 4.0 International License