Hopes for supernova are dimming as Betelgeuse brightens

It appears that the hopes of astronomers who wanted a nearby star to explode have been dashed. After weeks of unprecedented dimming, Betelgeuse — a star in the constellation Orion — is beginning to brighten again.

Star had dimmed to unprecedented levels, fascinating astronomers

The red supergiant star Betelgeuse in the constellation of Orion has been undergoing unprecedented dimming. This image, acquired by the European Southern Observatory's Very Large Telescope in December 2019, shows a darkening of the star, as well as a bright spot. (ESO/M. Montargès et al)

It appears that the hopes of people who wanted a nearby star to explode have been dashed. 

After weeks of unprecedented dimming, Betelgeuse — a star in the constellation Orion — is beginning to brighten again.

Both professional and amateur astronomers had been keeping a close eye on the unusual dimming of the red supergiant star, as its brightness decreased to the lowest in recorded observational history. Some had hoped that its fading was indicative of an impending explosion, a supernova.

But the fact that Betelgeuse is brightening is exactly what professional astronomers were expecting.

Betelgeuse is a fascinating star to astronomers. The red supergiant is 14,000 times more luminous than our sun and roughly 1,400 times larger. It is surrounded by dust and gas that, if it were at the centre of our solar system, it would stretch all the way to Neptune.

It is also a semi-regular variable, meaning that its brightness waxes and wanes in cycles. 

This artist’s impression shows that Betelgeuse has a vast plume of gas almost as large as our solar system and a gigantic bubble boiling on its surface. (ESO/L. Calçada)

When red supergiants die, they do so in a spectacular fashion, exploding as a supernova. And while Betelgeuse is at the end of its lifespan, astronomers believe that it still has roughly 100,000 years or more to go. But because these types of stars aren't completely understood, they can't be certain.

And that's where the hope lay with Betelgeuse's dimming.

But astronomers had hypothesized that two of its three cycles — one that is roughly 430 years, one that is roughly six years and one that is roughly between 100 to 180 days — had converged, leading to its extreme dimming. And they believed that somewhere at the end of February, it would begin to recover.

'Still very cautious'

So Betelgeuse's brightening is right on schedule, which supports their hypothesis. However, they're still waiting for more data.

"At this point we're still very cautious about screaming, 'Oh, we were right! We know what's happening!'" said Stella Kafka, chief executive officer of the American Association of Variable Star Observers, an organization that monitors variable stars. "But the data shows us Betelgeuse's brightness is increasing."

Though it appears that Betelgeuse won't go supernova, it's provided a wealth of information on a class of stars that aren't well understood. And that, in and of itself, is exciting, Kafka said. 

As well, the strangeness of Betelgeuse has been widely reported, and it's resulted in non-astronomers looking at the night sky, something that Kafka thinks is remarkable.

"It's really exciting that we're all in this together. It's one of those things that the whole community, the whole world is looking at Betelgeuse trying to figure out what's going on," she said. "We're learning from it."

Another important takeaway from the recent activity on Betelgeuse is that it serves as a reminder that the sky isn't as static as we may think; that it can change even in our lifetimes, Kafka said. And studying something relatively nearby that is evolving sheds some light on how our solar system and life on our planet may have begun.

"That's why astronomy is so interesting to everybody. It satisfies this fundamental question … where do we belong?"




Nicole Mortillaro

Senior reporter, science

Based in Toronto, Nicole covers all things science for CBC News. As an amateur astronomer, Nicole can be found looking up at the night sky appreciating the marvels of our universe. She is the editor of the Journal of the Royal Astronomical Society of Canada and the author of several books. In 2021, she won the Kavli Science Journalism Award from the American Association for the Advancement of Science for a Quirks and Quarks audio special on the history and future of Black people in science. You can send her story ideas at


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