You won’t need solar eclipse glasses for this one.
An explosion in space so massive you’ll be able to look up and see it in the night sky without a telescope could happen “any day now,” a NASA expert said Wednesday. The stellar burst, called a nova, will make it seem as if a new star is shining down on Earth. It won’t stick around forever, though.
This particular nova is rare, say experts, occurring once every 80 years or so, meaning skywatchers will likely have a “once-in-a-lifetime” opportunity to see it.
Here’s what we know about T Coronae Borealis, dubbed the “Blaze Star.”
When can people see a rare nova explosion in 2024?
According to a June article by NASA, some researchers say T Coronae Borealis could go nova by September 2024.
“We hope that it happens any day now,” said Dr. Rebekah Hounsell, an assistant research scientist specializing in nova events at NASA’s Goddard Space Flight Center, who cautioned that the exact date is impossible to pin down. “The timing of when it does happen is an estimate. We hope this year, we hope this month.”
Is the nova visible yet?
Not yet. Months ago, astronomers with the Planetary Society in May predicted a 70% chance T Coronae Borealis, known as “T-Cor-Bor” would go nova by September. They estimated a 95% chance of an explosion happening by the end of the year.
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How bright will the 2024 nova be?
The nova should be easy to spot if you know where to look, say experts. It should shine about as brightly as the North Star.
“It’s going to be very, very obvious,” Hounsell said. “The star is only 3,000 light years away in the northern crown constellation, so it’s going to be similar to Polaris, which is extremely bright.”
That’s roughly 17 quadrillion miles away. Even so, scientists with the Planetary Society say the nova explosion will likely be the brightest one witnessed on Earth since 1975.
How to see the T Coronae Borealis nova explosion in 2024
T Coronae Borealis can be found in the Northern Crown constellation, writes EarthSky. Amateur stargazers can find it easily enough by searching for the two brightest stars in the Northern Hemisphere.
Look for the Big Dipper and follow its handle pointing toward the star Arcturus. Next, find Vega, which is part of the Summer Triangle. By drawing a straight line from Arcturus and Vega, you’ll find the constellation Hercules and the Corona Borealis, a horseshoe-shaped curve of stars.
Just a little bit below the Corona Borealis, experts say, is where the Blaze Star should appear.
What is a nova?
The word “nova” comes from the Latin word meaning “new.” In astronomical terms, it can seem like there’s a new star in the heavens, even though that star might be very old and at the end stages of its life.
During a nova event, explains NASA, energy explodes from a white dwarf star.
Hounsell said white dwarf stars aren’t much larger than Earth. Usually they’re too dim to see at night, but when a nova happens, the sudden explosion can make the star shine brightly enough to be viewed with the naked eye from trillions of miles away.
What causes a star to nova?
Stars don’t always play nice with each other, say experts. Most stars are bound by gravity to one or more companion stars, and things can get interesting — or violent — if these stars get too close.
With the possible nova eruption of T Coronae Borealis in the coming months, skywatchers are at the edge of their seats! Scientists are ready to observe it with space- and ground-based telescopes to learn more about this recurring cosmic phenomenon. pic.twitter.com/I1c6RUhwVF
— NASA Universe (@NASAUniverse) June 7, 2024
Sometimes when a small white dwarf star orbits a regular star, it can siphon off the larger star’s energy. That’s because a white dwarf star has about the same mass as Earth’s sun, Hounsell said. Its gravity is extremely powerful — not as strong as a black hole, according to Chicago’s Adler Planetarium, but roughly 100,000 to 300,000 times the gravity on Earth.
“So material is being pulled away from the companion star by the gravity of the white dwarf,” Hounsell said. “This material builds up in layers onto the white dwarf’s surface and the layers get really, really hot, but the material can’t expand.”
Eventually the pressure and heat trigger a massive thermonuclear explosion, Hounsell said, which is called a nova.
What’s the difference between a nova and a supernova?
A supernova is the final, fiery explosion that can destroy a dying star. It can briefly outshine entire galaxies, writes Space.com, and radiate more energy than our sun will produce in its entire lifetime. But while supernovas occur only once, a nova can happen again and again.
After a nova explosion, the dwarf star remains intact, and the cycle triggering another explosion starts over, which NASA says can take tens, hundreds or even thousands of years.
In T Coronae Borealis’ case, the cycle repeats roughly once every 80 years.
When did T Coronae Borealis last go nova?
The last nova from T Coronae Borealis happened in February 1946. It also erupted 80 years before that, in 1866. One astronomer described the event saying, “In colour, the star appeared nearly white with a bluish tinge,” according to documents preserved by IOPscience.
The first recorded sighting of the “blaze star” was more than 800 years ago, according to NASA. An abbot named Burchard in Ursberg, Germany, noted in 1217 that he saw, “a faint star that for a time shone with great light.”
How long will the nova last?
The nova should last roughly a week, Hounsell said, reaching peak brightest in its first few days before fading away.
How often do stars go nova?
There are only five known stars in the entire galaxy that have nova events, writes NASA, but scientists believe the Milky Way experiences roughly between 30-60 nova explosions per year.
These faraway stars are so distant they can’t be seen with the naked eye, because the light is obscured by gas and dust.
What happens if T Coronae Borealis doesn’t go nova in September, or at all?
Then that would be interesting, says Hounsell.
“We know roughly from historical records it’s supposed to be around every 80 years or so, but this is unpredictable science,” she said. “If the nova doesn’t go off in the timeframe we expect it to, then that might mean something different happened, leading us to figure out more information, which is really cool. We’ll learn new things. That’s the point of science.”
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This article originally appeared on Indianapolis Star: When to look for the rare nova explosion of T Coronae Borealis in the sky
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