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  • [♪ INTRO]

  • Back in 2008, astronomers spotted a weird thing in our neighboring galaxy Andromeda.

  • Without warning, a star suddenly flashed incredibly brightly!

  • But then, it faded back to normal over about fifteen days.

  • And then, a year later, it did it again!

  • Year after year, it kept on bursting into brightness and then settling back down.

  • Scientists named it M31N 2008-12a, which we'll call 12a for short.

  • And it turns out, this thing is something really special.

  • It's a rare phenomenon called a recurrent nova.

  • And it may hold the key to understanding the lives and cataclysmic deaths of massive stars.

  • In 2008, though, scientists didn't realize how cool this thing was.

  • They believed that the first flash of 12a was a plain old nova.

  • If you've heard of supernovas, the violent explosions that happen at the end of some stars' lives,

  • well, these are totally different.

  • So you can thank astronomers for that.

  • Novas are much less destructive.

  • They originate from a very specific kind of binary star system:

  • a system with one normal star, and one small, dense white dwarf.

  • The white dwarf has a pretty intense gravitational pull, so over time,

  • it steals hydrogen gas from the outer layer of its neighboring star.

  • Over the years, that gas builds up on the white dwarf's surface,

  • where it gets hotter, and hotter, and hotter.

  • And when it reaches about twenty million degrees Celsius,

  • nuclear fusion is kick-started within that outer layer.

  • The stolen hydrogen is converted into heavier elements, and that reaction

  • releases a huge amount of energy, starting a process called thermonuclear runaway.

  • In this process, the fusion generates energy, which heats up the hydrogen more,

  • which boosts fusion,which generates more energy and heat, and more fusion, and you get the idea.

  • Ultimately, that sudden release of runaway energy is enough to blast what's left of

  • the stolen hydrogen and the fusion products outwards, away from the star.

  • And you end up with a really bright shell of material,

  • lit up by the white dwarf and companion star within.

  • From Earth, we see novas as sudden pulses of bright light that slowly fade over time,

  • as their shells expand and dissipate into space.

  • And generally, they're not that uncommon.

  • Astronomers see about 10 in the Milky Way every year, and at least 25 in Andromeda.

  • But 12a was still special, because it wasn't just a regular, run-of-the-mill nova.

  • It was a recurrent nova.

  • In other words, after it blasted away all that gas,

  • it kept stealing hydrogen from its companion star

  • until it went nova again, and again, and again.

  • Once a year, every year, practically right on cue.

  • This wasn't the first recurrent nova scientists had ever seen,

  • but it does seem to be the one that explodes the most often,

  • since most objects like this only go off about once every decade or few decades.

  • And this behavior doesn't seem to be new, either.

  • In fact, based on how big the shell of material floating around 12a is,

  • scientists think this nova has been regularly erupting for millions of years. As for why?

  • Well, scientists think it happens because 12a's white dwarf is likely massive.

  • With more mass, it has stronger gravity,

  • so it can pull hydrogen from its companion more rapidly,

  • and begin thermonuclear runaway in less time.

  • This recurrent nova is cool partly for that weird factor,

  • like, a star that partially explodes every year? Yes please!

  • But it might also have something important to teach astronomers.

  • 12a is so massive and is collecting so much hydrogen that, eventually,

  • scientists believe it will reach what's called the Chandrasekhar Limit.

  • That's the maximum mass a white dwarf can be and still be stable,

  • so after that point, it will transform into some other kind of object.

  • There are a couple of ways this could happen,

  • but researchers think that it's very likely to explode as a Type Ia supernova.

  • These supernovas are famous for their consistency.

  • Basically every Ia that goes off is known to have the same absolute brightness,

  • and this is so well-documented that these supernovas

  • are part of a group nicknamed standard candles.

  • Scientists use them all the time to calculate how far away distant galaxies are,

  • since their actual brightness goes down the farther away they are.

  • This is incredibly useful, because it helps us measure

  • the structure and expansion of the universe. You know, big questions!

  • But here's the catch: We still don't exactly know how type Ia supernovas happen.

  • Our models can't quite explain it.

  • So assuming 12a will go supernova someday, we have a unique opportunity

  • to study a system that's potentially on the brink of destruction.

  • Seeing how it evolves could give astronomers precious information about standard candle supernovas,

  • and by extension, our tools for measuring the universe.

  • The only problem is that some researchers think

  • it'll take another 40,000 years before 12a goes supernova.

  • So we might have a little while to wait!

  • But in the meantime, our new understanding of recurrent novas

  • and the giant remnant shells that they leave behind will help us find more of these things.

  • And maybe we'll even catch one in the act of going supernova.

  • Thanks for watching this episode of SciShow Space!

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  • Like, one series, called Cosmic Front, explores a bunch of stuff,

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  • And whether you've been a space fan for years or are just discovering the night sky,

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  • [♪ OUTRO]

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この星は爆発が止まらない! (This Star Just Won't Stop Exploding!)

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    林宜悉 に公開 2021 年 01 月 14 日
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