Rerun of Supernova Blast Expected to Appear in 2037 - NASA Science (2024)

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It's challenging to make predictions, especially in astronomy. There are however, a few forecasts astronomers can depend on, such as the timing of upcoming lunar and solar eclipses and the clockwork return of some comets.

Now, looking far beyond the solar system, astronomers have added a solid prediction of an event happening deep in intergalactic space: an image of an exploding star, dubbed Supernova Requiem, which will appear around the year 2037. Although this rebroadcast will not be visible to the naked eye, some future telescopes should be able to spot it.

Rerun of Supernova Blast Expected to Appear in 2037 - NASA Science (1)

It turns out that this future appearance will be the fourth-known view of the same supernova, magnified, brightened, and split into separate images by a massive foreground cluster of galaxies acting like a cosmic zoom lens. Three images of the supernova were first found from archival data taken in 2016 by NASA's Hubble Space Telescope.

The multiple images are produced by the monster galaxy cluster's powerful gravity, which distorts and magnifies the light from the supernova far behind it, an effect called gravitational lensing. First predicted by Albert Einstein, this effect is similar to a glass lens bending light to magnify the image of a distant object.

The three lensed supernova images, seen as tiny dots captured in a single Hubble snapshot, represent light from the explosive aftermath. The dots vary in brightness and color, which signify three different phases of the fading blast as it cooled over time.

"This new discovery is the third example of a multiply imaged supernova for which we can actually measure the delay in arrival times," explained lead researcher Steve Rodney of the University of South Carolina in Columbia. "It is the most distant of the three, and the predicted delay is extraordinarily long. We will be able to come back and see the final arrival, which we predict will be in 2037, plus or minus a couple of years."

The light that Hubble captured from the cluster, MACS J0138.0-2155, took about four billion years to reach Earth. The light from Supernova Requiem needed an estimated 10 billion years for its journey, based on the distance of its host galaxy.

The team's prediction of the supernova's return appearance is based on computer models of the cluster, which describe the various paths the supernova light is taking through the maze of clumpy dark matter in the galactic grouping. Dark matter is an invisible material that comprises the bulk of the universe's matter and is the scaffolding upon which galaxies and galaxy clusters are built.

Each magnified image takes a different route through the cluster and arrives at Earth at a different time, due, in part, to differences in the length of the pathways the supernova light followed.

"Whenever some light passes near a very massive object, like a galaxy or galaxy cluster, the warping of space-time that Einstein's theory of general relativity tells us is present for any mass, delays the travel of light around that mass," Rodney said.

He compares the supernova's various light paths to several trains that leave a station at the same time, all traveling at the same speed and bound for the same location. Each train, however, takes a different route, and the distance for each route is not the same. Because the trains travel over different track lengths across different terrain, they do not arrive at their destination at the same time.

In addition, the lensed supernova image predicted to appear in 2037 lags behind the other images of the same supernova because its light travels directly through the middle of the cluster, where the densest amount of dark matter resides. The immense mass of the cluster bends the light, producing the longer time delay. "This is the last one to arrive because it's like the train that has to go deep down into a valley and climb back out again. That's the slowest kind of trip for light," Rodney explained.

The lensed supernova images were discovered in 2019 by Gabe Brammer, a study co-author at the Cosmic Dawn Center at the Niels Bohr Institute, University of Copenhagen, in Denmark. Brammer spotted the mirrored supernova images while analyzing distant galaxies magnified by massive foreground galaxy clusters as part of an ongoing Hubble program called REsolved QUIEscent Magnified Galaxies (REQUIEM).

He was comparing new REQUIEM data from 2019 with archival images taken in 2016 from a different Hubble science program. A tiny red object in the 2016 data caught his eye, which he initially thought was a far-flung galaxy. But it had disappeared in the 2019 images.

"But then, on further inspection of the 2016 data, I noticed there were actually three magnified objects, two red and a purple," he explained. "Each of the three objects was paired with a lensed image of a distant massive galaxy. Immediately it suggested to me that it was not a distant galaxy but actually a transient source in this system that had faded from view in the 2019 images like a light bulb that had been flicked off."

Brammer teamed up with Rodney to conduct a further analysis of the system. The lensed supernova images are arranged in an arc around the cluster's core. They appear as small dots near the smeared orange features that are thought to be the magnified snapshots of the supernova's host galaxy.

Study co-author Johan Richard of the University of Lyon in France produced a map of the amount of dark matter in the cluster, inferred from the lensing it produces. The map shows the predicted locations of lensed objects. This supernova is predicted to appear again in 2042, but it will be so faint that the research team thinks it will not be visible.

Catching the rerun of the explosive event will help astronomers measure the time delays between all four supernova images, which will offer clues to the type of warped-space terrain the exploded star's light had to cover. Armed with those measurements, researchers can fine-tune the models that map out the cluster's mass. Developing precise dark-matter maps of massive galaxy clusters is another way for astronomers to measure the universe's expansion rate and investigate the nature of dark energy, a mysterious form of energy that works against gravity and causes the cosmos to expand at a faster rate.

This time-delay method is valuable because it's a more direct way of measuring the universe's expansion rate, Rodney explained. "These long time delays are particularly valuable because you can get a good, precise measurement of that time delay if you are just patient and wait years, in this case more than a decade, for the final image to return," he said. "It is a completely independent path to calculate the universe's expansion rate. The real value in the future will be using a larger sample of these to improve the precision."

Spotting lensed images of supernovae will become increasingly common in the next 20 years with the launch of NASA's Nancy Grace Roman Space Telescope and the start of operations at the Vera C. Rubin Observatory. Both telescopes will observe large swaths of the sky, which will allow them to spot dozens more multiply imaged supernovae.

Future telescopes such as NASA's James Webb Space Telescope also could detect light from supernova Requiem at other epochs of the blast. The team's results will appear on September 13 in the journal Nature Astronomy.

The Hubble Space Telescope is a project of international cooperation between NASA and ESA (European Space Agency). NASA's Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. The Space Telescope Science Institute (STScI) in Baltimore, Maryland, conducts Hubble science operations. STScI is operated for NASA by the Association of Universities for Research in Astronomy in Washington, D.C.

Media Contacts:

Claire AndreoliNASA's Goddard Space Flight Center

Donna Weaver
Space Telescope Science Institute, Baltimore, Maryland

Ray Villard
Space Telescope Science Institute, Baltimore, Maryland

Science Contacts:

Steven A. Rodney
University of South Carolina, Columbia, South Carolina

Gabriel Brammer
Cosmic Dawn Center/Niels Bohr Institute/University of Copenhagen, Copenhagen, Denmark

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Last Updated

Mar 05, 2024

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Rerun of Supernova Blast Expected to Appear in 2037 - NASA Science (2024)

FAQs

Rerun of Supernova Blast Expected to Appear in 2037 - NASA Science? ›

Researchers predict that a rerun of the same supernova will make an appearance in 2037. The predicted location of that fourth image is highlighted by the yellow circle at top left. The light from Supernova Requiem needed an estimated 10 billion years for its journey, based on the distance of its host galaxy.

Will there be a visible supernova in 2024? ›

When will the nova be visible? All signs point to the nova explosion happening in September 2024. However, novae can be unpredictable, so astrophysicists say it's difficult to know exactly when the T CrB nova will occur.

How often would we expect to see a galactic supernova? ›

The star collapses and explodes as its carbon ignites. This type of supernova is called a carbon-detonation supernova. Theory predicts that a supernova visible from Earth should occur within our Galaxy about once a century, although none has been observed in the last 400 years.

Has NASA seen a supernova? ›

Peering deeply into the cosmos, NASA's James Webb Space Telescope is giving scientists their first detailed glimpse of supernovae from a time when our universe was just a small fraction of its current age. A team using Webb data has identified 10 times more supernovae in the early universe than were previously known.

What star blew up in 2024? ›

Astronomers believe the T Coronae Borealis star system may become visible before September 2024 due to a nova explosion that occurs once every 80 years.

Will any supernova hit Earth? ›

The Milky Way's a big galaxy, too—120,000 light-years across—and there's roughly one supernova within it every few decades. The chance of one being so close to Earth to put some hurt on us is small—but, irritatingly, not zero.

Could Betelgeuse explode in our lifetime? ›

It's not likely to happen now, but we do know that Betelgeuse will definitely explode as a supernova sometime in the next 100,000 years.

Will Betelgeuse explode in 2024? ›

Betelgeuse is a red giant in the final stage of its life. It will go supernova sometime between the next 10 years and the next 100,000 years and there is a lot of active debate about when in that timeframe is most likely.

What happens to Earth if Betelgeuse explodes? ›

Will its supernova destroy Earth? Whenever Betelgeuse does blow up, our planet Earth is too far away for this explosion to harm, much less destroy, life on Earth.

Will I see a supernova in my lifetime? ›

Unfortunately, supernovae visible to the naked eye are rare. One occurs in our galaxy every few hundred years, so there is no guarantee you will ever see one in our galaxy in your lifetime. In 1987, a supernova called 1987A was visible in a nearby galaxy called the Large Magellanic Cloud.

Are supernovae good or bad? ›

Massive stars explode at the end of their lives. These explosions are called supernovae. A nearby supernova would be dangerous for life on Earth. Luckily, there are no stars like that close to us.

What is the closest supernova to Earth? ›

Because Type Ia supernovae arise from dim, common white dwarf stars, it is likely that a supernova that could affect the Earth will occur unpredictably and take place in a star system that is not well studied. The closest known candidate is IK Pegasi.

Has the James Webb Telescope seen a black hole? ›

James Webb telescope spots 2 monster black holes merging at the dawn of time, challenging our understanding of the universe. New observations with the James Webb Space Telescope reveal the most distant pair of merging black holes ever spotted.

Have humans seen a supernova? ›

A supernova occurs on average once every 25 to 100 years in the Milky Way Galaxy. Despite the odds, no supernova in our Galaxy has been observed from Earth since the invention of the telescope. However, one nearby supernova (SN 1987A) has been observed in a neighboring galaxy, the Large Magellanic Cloud.

What happened 11 billion years ago? ›

More than 11 billion years ago, around 21 billion light-years from Earth, a red supergiant over 500 times larger than the sun exploded.

When can we expect a supernova? ›

Nasa said that the supernova is not likely to happen for about another 100,000 years. It is predicted that by then the star will become either a neutron star or a black hole. “The star's final fate depends on how much material is left after the supernova event,” Nasa said.

What is the closest supernova to the future? ›

Fortunately it's impossible so we don't need to worry about it. The closest star to the Earth which could possibly become a Supernova is IK Pegasi, which is over a hundred and fifty light years away. At that distance we would see the star get brighter, but experience no other effects.

Are we overdue for a supernova? ›

Johannes Kepler observed last supernova in the Milky Way in 1604, so in a statistical sense, the next one is overdue. At 600 light-years away, the red supergiant Betelgeuse in the constellation of Orion is the nearest massive star getting close to the end of its life.

How often is a supernova visible? ›

Observation history. Compared to a star's entire history, the visual appearance of a supernova is very brief, sometimes spanning several months, so that the chances of observing one with the naked eye are roughly once in a lifetime.

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