Skip to main content
  1. Home
  2. Space
  3. News

The ghostly remnants of a dead star captured in stunning image

Add as a preferred source on Google

When a massive star runs out of fuel and comes to the end of its life, it can explode in an enormous and epic event called a supernova, which can be as bright as an entire galaxy. These explosions can obliterate anything around them, but they aren’t simply destructive — they can also create stunning structures called supernova remnants. These remnants are formed as shock waves from the explosion travel through nearby clouds of gas, sculpting them into beautiful shapes.

One such ghostly remnant has been captured by a ground-based instrument called OmegaCAM on the European Southern Observatory’s VLT Survey Telescope.  The Vela supernova remnant is located 800 light-years away and was created by the death of a star around 11,000 years ago.

This image shows a spectacular view of the orange and pink clouds that make up what remains after the explosive death of a massive star — the Vela supernova remnant. This detailed image consists of 554 million pixels, and is a combined mosaic image of observations taken with the 268-million-pixel OmegaCAM camera at the VLT Survey Telescope, hosted at ESO’s Paranal Observatory. OmegaCAM can take images through several filters that each let the telescope see the light emitted in a distinct colour. To capture this image, four filters have been used, represented here by a combination of magenta, blue, green and red. The result is an extremely detailed and stunning view of both the gaseous filaments in the remnant and the foreground bright blue stars that add sparkle to the image.
This image shows a spectacular view of the orange and pink clouds that make up what remains after the explosive death of a massive star — the Vela supernova remnant. ESO/VPHAS+ team. Acknowledgement: Cambridge Astronomical Survey Unit

When the massive star died, it ejected its outer layers, which formed the filament-like structures seen in the image. The dense core that remained became a neutron star.

Recommended Videos

To capture this image, which is a mosaic and has a total of 554 million pixels, astronomers used the 268-million-pixel OmegaCAM with various filters to view different wavelengths of light.

“OmegaCAM can take images through several filters that each let the telescope see the light emitted in a distinct color,” the European Southern Observatory explains. “To capture this image, four filters have been used, represented here by a combination of magenta, blue, green and red. The result is an extremely detailed and stunning view of both the gaseous filaments in the remnant and the foreground bright blue stars that add sparkle to the image.”

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
China’s answer to SpaceX’s reusable rockets literally catches boosters in a net
SpaceX catches boosters on legs. China just used a net.
Ammunition, Missile, Weapon

SpaceX's playbook for recovering a rocket booster generally involves legs, a precisely controlled vertical landing, and either a concrete pad or a drone ship. 

China just managed to pull off something similar, but in a slightly different way, and on July 10, it tested the method as well.

Read more
Dimming the sun sounds unhinged, but this new study on El Niño makes a surprisingly good case for it
A natural test case, Australia's worst-ever wildfire season, suggests the idea deserves serious consideration.
Nature, Outdoors, Sky

When I first saw "scientists propose dimming the sun," I rolled my eyes. It sounds like a science fiction movie cooked up after watching many climate documentaries. But a new study, published on July 8, 2026, in the journal Science Advances, seems to have a genuinely compelling argument.

A Super El Niño is currently forming in the Pacific, feared to be the most intense in decades. It could escalate floods, wildfires, and extreme heat events worldwide. However, Researchers at UC San Diego's Scripps Institution of Oceanography, led by climate scientists Kate Ricke and Jessica Wan, are now proposing one of the most interesting solutions I’ve come across.

Read more
You can now walk through space and gaze into a black hole at this VR exhibit
Smithsonian Starstruck lets you drift past dying stars and see the origin point of the universe for as little as $18 a person.
Smithsonian Starstruck featured

Most planetarium shows ask you to sit still and look up. The Smithsonian's new VR exhibit takes a different approach, letting visitors walk through the vast expanse of the universe, drifting past stars, planets, and a black hole to get a physical sense of its true scale.

A $29 ticket to the edge of the galaxy

Read more