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  • [♪ INTRO]

  • If you've seen any pictures from the recent solar eclipse, you've probably noticed a

  • big, wispy halo shining from behind the moon.

  • That's the corona, the outermost layer of the Sun's atmosphere,

  • and it's pretty sweet.

  • It's also home to one of the biggest mysteries in astronomy.

  • Even though the corona is the top layer of the Sun's atmosphere,

  • it's hundreds of times hotter than the surface.

  • A whopping 1 to 4 million degrees Celsius, compared to about 5500 degrees.

  • Astronomers have done enough research to give them some ideas why, but to really figure it out,

  • they're getting ready to send a probe into the fires of the Sun itself.

  • The corona is so thin that the rest of the Sun's light usually outshines it,

  • which is why you can only see it clearly from Earth during an eclipse.

  • It's also enormous, extending millions of kilometers above the Sun's surface.

  • Like the rest of the Sun, the corona is made of plasma, which is basically a charged gas

  • that forms when atoms become so hot that their electrons break free from their orbits.

  • For the corona to be as hot as it is, astronomers think there has to be some totally different

  • kind of heating mechanism happening there, because usually it gets colder

  • the farther you get from a heat source.

  • One popular idea is that it involves wave heating, where strong waves of energy are

  • created by turbulence on the Sun's surface and then travel out to the corona.

  • These waves move kind of like ocean waves, except that instead of water, there are ions

  • and electrons in the plasma moving back and forth.

  • And whenever those charged particles move, they also create a magnetic field.

  • The field doesn't move exactly the same way as the particles, but it can change strength

  • and direction as the wave travels, and the magnetism also gives the wave some extra energy.

  • According to this hypothesis, as the waves move away from the Sun, all that energy eventually

  • turns into heat that makes the corona all nice and cozy.

  • But that still might not be enough to make the corona as hot as it is.

  • In 2011, scientists studying the Sun's transition zone, the region of the Sun's atmosphere

  • just below the corona, found that wave heating could be enough to get the corona to the bottom

  • of its temperature range -- or about a million degrees Celsius.

  • But when there's a lot of solar activity, the corona can get up to four times hotter

  • than that, so something has to be causing the extra boost.

  • To help explain it, astronomers have another hypothesis called magnetic reconnection,

  • which happens when pockets of magnetism in the Sun's plasma connect and release a ton of energy.

  • These pockets are called magnetic domains, and they're regions where the magnetic fields

  • line up so they're pointing in the same direction.

  • Here on Earth, this happens all the time when rocks or metals become magnetized, but because

  • those domains are in solid materials, they don't interact in the same way.

  • On the Sun, because there's all that plasma swirling around, magnetic domains can come

  • into contact with each other -- and when they do, things get kinda weird.

  • Usually, when magnetic fields combine, we can predict the outcome.

  • But with magnetic reconnection, there's all kinds of weird bending and stretching

  • to throw off our calculations.

  • That's because there are a lot of other factors involved that we usually don't have

  • to deal with on Earth, like the fact that the Sun is rotating and plasma is moving around

  • all over the place, which creates a constantly changing system

  • we don't totally understand yet.

  • One thing we do know is that, when two domains collide that were lined up in opposite directions,

  • they annihilate each other and release a huge amount of heat energy, and that might be enough

  • to boost the corona to those higher temperatures.

  • We're not positive these two ideas explain everything, or even if that's really

  • what's happening in the corona.

  • Instead, there might be a lot of smaller mechanisms we don't know about.

  • So to gather more data, NASA is about to fly a probe into the Sun!

  • It's called the Parker Solar Probe, and it'll have a bunch of instruments to study

  • things like coronal heating, magnetism, and plasma dynamics.

  • To get that data, the probe will fly within 6 million kilometers of the sun,

  • which is closer than we've ever been before!

  • The probe's SWEAP instrument, which stands for Solar Wind Electrons Alphas and Protons,

  • will gather information on what's going on in the corona, which, along with with tons

  • of observations from the ground, will hopefully tell us why it's so hot!

  • The Parker Solar Probe isn't scheduled to launch until Summer 2018, so we'll just

  • have to hang tight until then -- but maybe the next time a solar eclipse comes around,

  • the corona won't be such a mystery.

  • Thanks for watching this episode of SciShow Space!

  • If you want to learn more about the Parker Solar Probe, you can watch our earlier episode

  • where we give you all the details.

  • [♪ OUTRO]

[♪ INTRO]

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太陽のコロナはなぜこんなに熱いのか? (Why Is the Sun's Corona So Hot?)

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    林宜悉 に公開 2021 年 01 月 14 日
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