Placeholder Image

字幕列表 影片播放

  • [ ♪ Intro ]

  • If you're a fan of astronomy, you probably think you know the story of the first time

  • we discovered a planet outside our solar system.

  • It goes something like this: “Once upon a time, long ago, it was 1995…

  • [ fasts forward sounds ]

  • And by observing changes in a star's motion, Swiss astronomers found our very first exoplanet

  • orbiting the star 51 Pegasi.”

  • It's an amazing story, but it has just one problem: The planet that came to be known

  • as 51 Pegasi b wasn't the first planet discovered around another star.

  • Or the second.

  • Or even the third.

  • It just happened to be the first planet we found around a star like our Sun.

  • People often forget about the first true exoplanets because they orbit something very different:

  • a pulsar.

  • That's right: Between 1992 and '94, astronomers discovered a whole star system around one

  • of the weirdest objects in the universe.

  • The pulsar in question is PSR B1257+12, which, thankfully, some astronomers nicknamed Lich.

  • It's about 2300 light-years from Earth.

  • Like all pulsars, Lich is a special version of a neutron star, an object with a kind of

  • misleading name.

  • They aren't stars in the normal sense because they don't convert hydrogen into helium

  • in their cores.

  • Instead, these objects are actually the leftover cores of other stars.

  • They form when stars more massive than our Sun end their lives in powerful supernova

  • explosions, which are some of the most violent events in the universe.

  • As the star explodes outward, its core is compressed under unimaginable pressure.

  • So much pressure, in fact, that the electrons and protons inside its atoms are literally

  • crushed together into neutrons.

  • What's left is basically a ball of solid neutrons about 20 kilometers across.

  • And because that ball is a lot smaller than what the core started as, it also spins a

  • lot faster -- just like how a dancer does when they pull in their arms.

  • Lich, for example, makes an entire rotation every 6.22 milliseconds!

  • Most neutron stars have powerful magnetic fields, which can blast out beams of radiation,

  • like radio waves.

  • Depending on the star's orientation, that beam can sweep across Earth like a lighthouse

  • as the star rotates, sending a pulse of radio waves our way.

  • If it does, we call it a pulsar!

  • Timing this beam is how astronomers figure out a pulsar's rotation rate, and they're

  • some of the most accurate clocks in existence.

  • I'm not kidding: Lich's period isn't exactly the 6.22 milliseconds I mentioned earlier.

  • It's actuallywell, this.

  • And that incredible precision is how the very first exoplanets were found.

  • In 1992, astronomers studying this recently-discovered pulsar noticed something unusual: The timing

  • of this supposedly super-accurate clock seemed to be drifting.

  • It was a tiny change, but it was enough to alter the exact distance between Lich and

  • Earth, meaning its pulses sometimes arrived a little early or a little late.

  • And since we can normally rely on a pulsar's timing to be very steady, these changes must've

  • corresponded to stuff around it, tugging on the star and affecting its orbit.

  • By looking for a pattern in the timing variations, astronomers were able to figure out not only

  • that there were planetsthree of them! — but also how massive they were.

  • They started out with some pretty technical names, but they've since been nicknamed

  • Poltergeist, Phobetor, and Draugr.

  • And their masses were one of the real surprises: Not only do two of the planets have masses

  • only a few times as much as Earth, but one has a mass similar to our Moon!

  • This makes them some of the smallest exoplanets ever detected.

  • But you probably wouldn't want to visit there.

  • All three orbit their pulsar at least twice as close as the Earth orbits the Sunwhich

  • is probably a bad place to be with all those powerful magnetic fields.

  • Actually, if you think about it, it seems like these planets really shouldn't exist at all.

  • They shouldn't have been able to survive the supernova that destroyed their original star.

  • So how'd they do it?

  • Easy: They probably didn't.

  • It's much more likely that they formed after their host star blew up.

  • From another star.

  • That was also destroyed.

  • Seriously, if you see a star about to blow up, just back away, very, very quickly.

  • It gets nasty in there.

  • Many neutron stars also have companion stars in orbit around them, and Lich may have been no exception.

  • Sometimes, in systems like this, material from that companion star gets pulled onto

  • the neutron star.

  • It might even be an especially common process for pulsars.

  • Eventually, if enough material gets stolen, the companion star basically disintegrates,

  • forming a disk of debris around the pulsar.

  • Now, around regular, young stars, planets form from disks like this.

  • So it's reasonable to say that would happen around dying stars, too.

  • As far as we can tell, that's likely how Poltergeist and its friends ended up in the universe.

  • Of course, if that all sound like a pretty unlikely scenario to you, the data would agree!

  • While planets seem to be incredibly common around normal stars, we've found them orbiting

  • less than 1% of known pulsars.

  • And that's probably a good thing, because pulsar planets have to be among the universe's

  • most tortured objects.

  • I mean, how many planets are born from a dying star, while in orbit about another dying star?

  • It's not exactly a field of daisies.

  • The first exoplanets we ever found might often get overlooked, but studying them can remind

  • us that the universe is rarely what we think it's supposed to be like.

  • From the very beginning, we knew exoplanets were going to be weird.

  • And since the 1990s, we've been proven right over and over again.

  • Thanks for watching this episode of SciShow Space!

  • If you'd like to learn about some of the weird, ridiculous exoplanets we've found

  • since 1992, you can watch our episode about three exoplanets with some seriously extreme weather.

  • [ ♪ Outro ]

[ ♪ Intro ]

字幕與單字

單字即點即查 點擊單字可以查詢單字解釋

B2 中高級

第一顆系外行星是在... 脈衝星周圍發現的? (The First Exoplanets Were Found Around... a Pulsar?)

  • 3 0
    林宜悉 發佈於 2021 年 01 月 14 日
影片單字