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Never seen an exploding star? This year, you'll have your chance

An artist's rendering shows the T Coronae Borealis star system, which contains a white dwarf and a red giant.
Conceptual Image Lab/Goddard Space Flight Center
/
NASA
An artist's rendering shows the T Coronae Borealis star system, which contains a white dwarf and a red giant.

Updated June 18, 2024 at 08:58 AM ET

Space enthusiasts, thank your lucky stars.

Astronomers expect that this year you'll be able to see the explosion of a star system in our Milky Way galaxy by simply looking up at the sky.

Yes, we know you just spent all that time figuring out how to catch the solar eclipse.

But the upcoming nova of the T Coronae Borealis star system is far less common, occurring roughly once every 80 years. A novatakes place when a small star suddenly and dramatically brightens for a short period.

"Seeing that star blow up is much rarer than a solar eclipse," NASA astronomer Bill Cooke told NPR in March. "So it's kind of a once-in-a-lifetime thing."

T Coronae Borealis is expected to nova at any moment between now and September. Located about 3,000 light years from Earth, the binary star system contains both a white dwarf and a red giant.

As the red giant heats up and its pressure grows, it starts spewing matter that's collected by the white dwarf, according to NASA. The smaller star, roughly the size of Earth, gets so overloaded with that matter that explodes.

"Eventually it accumulates so much material that literally a thermonuclear reaction starts and the star brightens by hundreds of times. It just gets super bright," Cooke said.

Such an event is called a nova, derived from the Latin for "new star," because a once-dim celestial object suddenly becomes illuminated, giving the impression of a new star.

Dr. Rebekah Hounsell, an assistant research scientist at NASA’s Goddard Space Flight Center who specializes in nova events, said in a press release earlier this month that such explosions typically occur on the same star in repeated intervals.

“There are a few recurrent novae with very short cycles, but typically, we don’t often see a repeated outburst in a human lifetime, and rarely one so relatively close to our own system,” said Hounsell.

When the nova occurs, the star system could surge from a +10 magnitude, which can't be seen by the naked eye, to a +2 magnitude, roughly the same level of brightness as the North Star. (Higher positive numbers indicate dimmer stars.)

Astronomers say that once the nova reaches its peak brightness, it will be visible to viewers for several days. Those using binoculars will be able to see it for just over a week before it dims again.

An outburst of T Coronae Borealis was scientifically observed in 1866, but it may have also been spotted as far back as 1217 by a German monk who documented an object that "shone with great light" for "many days." The star system last exploded in 1946.

Astrophysicists plan to closely observe the impending nova with the hope of better understanding these recurrent phenomena, NASA noted.

Among the tools that will be used to collect data on the eruption are the space agency’s Fermi Gamma-ray Space Telescope and James Webb Space Telescope. Some of the technology that’ll be in use, such as gamma-ray imagers, were only developed after the last nova in 1946.

“Typically, nova events are so faint and far away that it’s hard to clearly identify where the erupting energy is concentrated,” said NASA Goddard chief of the Astroparticle Physics Laboratory Elizabeth Hays. “This one will be really close, with a lot of eyes on it, studying the various wavelengths and hopefully giving us data to start unlocking the structure and specific processes involved.”

NASA says the nova will be visible in the constellation Corona Borealis, which is a "small, semicircular arc" located between the constellations Bootes and Hercules.

When you do spot the T Coronae Borealis outburst, think about this: because the star system is so far away, the outburst we'll see will have already occurred about 3,000 years earlier.

Copyright 2024 NPR