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This star shredded its companion to create a stunning double-lobed nebula

Nebulae are some of the most beautiful structures to be found in space: vast clouds of dust and gas that are illuminated by light from nearby stars. These regions are often busy sites of star formation, as new stars are born from clumps of dust that collect more material due to gravity. Within the category of nebulae, there are different types such as emission nebulae, where the gases are ionized by radiation and glow brightly, or supernova remnants, which are the structures left behind after massive stars come to the end of their lives and explode.

A recent image captured by NOIRLab’s Gemini South telescope shows a rare type of nebula called a bipolar reflection nebula. Known as the Toby Jug Nebula for its similar shape to a traditional English jug, nebula IC 2220 is 1,200 light-years away in the constellation of Carina, or the Keel.

A billowing pair of nearly symmetrical loops of dust and gas mark the death throes of an ancient red-giant star, as captured by Gemini South, one half of the International Gemini Observatory, operated by NSF’s NOIRLab. The resulting structure, said to resemble an old style of English jug, is a rarely seen bipolar reflection nebula. Evidence suggests that this object formed by the interactions between the dying red giant and a now-shredded companion star. The image was obtained by NOIRLab’s Communication, Education & Engagement team as part of the NOIRLab Legacy Imaging Program.
A billowing pair of nearly symmetrical loops of dust and gas mark the death throes of an ancient red-giant star, as captured by Gemini South, one-half of the International Gemini Observatory, operated by NSF’s NOIRLab. The resulting structure, said to resemble an old style of English jug, is a rarely seen bipolar reflection nebula. International Gemini Observatory/NOIRLab/NSF/AURA Image processing: T.A. Rector (University of Alaska Anchorage/NSF’s NOIRLab), J. Miller (Gemini Observatory/NSF’s NOIRLab), M. Rodriguez (Gemini Observatory/NSF’s NOIRLab), M. Zamani (NSF’s NOIRLab)

The double lobe of the nebula refers to the two looped structures originating from the nebula’s heart, a red giant star coming to the end of its life. Lower-mass stars like our sun reach this stage when they begin to run out of fuel and puff up to a large size, before throwing off layers of gas to create a planetary nebula.

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“In about five billion years from now, when our sun has burned through its supply of hydrogen, it too will become a red giant and eventually evolve into a planetary nebula,” NOIRLab writes. “In the very distant future, all that will be left of our solar system will be a nebula as vibrant as the Toby Jug Nebula with the slowly cooling sun at its heart.”

The red giant, called HR3126, is thought to be partially responsible for the unusual double-lobed shape of the nebula. Astronomers theorize that the red giant once had a companion star, which has since been pulled apart into a dense disk of matter which rotates around the red giant. This shredding of the companion star could have spurred the formation of the two-lobed structure.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Four telescopes work together to create a gorgeous image of a supernova remnant
This deep dataset from Chandra of the remains of a supernova known as 30 Doradus B (30 Dor B) reveals evidence for more than one supernova explosion in the history of this remnant. Unusual structures in the Chandra data cannot be explained by a single explosion. These images of 30 Dor B also show optical data from the Blanco telescope in Chile, and infrared data from Spitzer. Additional data from Hubble highlights sharp features in the image.

A stunning new image of a supernova remnant combines data from four different telescopes to show a colorful, detailed picture of a busy region of space. The remnant 30 Doradus B (or 30 Dor B) was created when a massive star came to the end of its life and exploded, and while the explosion was only brief, it sculpted the dust and gas around the star in a way that remains visible even now, thousands of years later.

This deep dataset from Chandra of the remains of a supernova known as 30 Doradus B (30 Dor B) reveals evidence of more than one supernova explosion in the history of this remnant. Unusual structures in the Chandra data cannot be explained by a single explosion. These images of 30 Dor B also show optical data from the Blanco telescope in Chile, and infrared data from Spitzer. Additional data from Hubble highlights sharp features in the image. Credit: X-ray: NASA/CXC/Penn State Univ./L. Townsley et al.; Optical: NASA/STScI/HST; Infrared: NASA/JPL/CalTech/SST; Image Processing: NASA/CXC/SAO/J. Schmidt, N. Wolk, K. Arcand

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James Webb spots tiniest known brown dwarf in stunning star cluster
The central portion of the star cluster IC 348. Astronomers combed the cluster in search of tiny, free-floating brown dwarfs.

A new image from the James Webb Space Telescope shows a stunning view of a star cluster that contains some of the smallest brown dwarfs ever identified. A brown dwarf, also sometimes known as a failed star, is an object halfway between a star and a planet -- too big to be a planet but not large enough to sustain the nuclear fusion that defines a star.

It may sound surprising, but the definition of when something stops being a planet and starts being a star is, in fact, a little unclear. Brown dwarfs differ from planets in that they form like stars do, collapsing due to gravity, but they don't sustain fusion, and their size can be comparable to large planets. Researchers study brown dwarfs to learn about what makes the difference between these two classes of objects.

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NASA’s Psyche spacecraft sends back its first image of a star field
This illustration, updated as of June 2020, depicts NASA’s Psyche spacecraft.

NASA has shared the first images taken by its Psyche mission, which launched in October to study a strange metal asteroid located in the main belt between Mars and Jupiter. The spacecraft, which is still on its long journey, is expected to make its arrival at the asteroid in 2029 and is currently between the orbits of Earth and Mars. But it is already testing out its instruments by taking a test image using its two cameras and sending it back to Earth, in a process called first light.

The image captured by Psyche's cameras shows a field of stars in the constellation Pisces. It is a mosaic made from the total of 68 images taken by the two cameras, with its first camera Imager A taking images for the left side and its second camera imager B taking images for the right side.

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