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  • [ ♪ Intro ]

  • Here's a riddle for you:

  • What objects combine giant balls of neutrons, black holes, the search for aliens, and doomed stars?

  • Give up?

  • The answer is the blitzar: the flash from a type of hypothetical, dying neutron star.

  • If they exist, they could be the solution to a mystery astronomers have spent years

  • trying to solve.

  • And as a bonus, they're pretty weird, too.

  • To understand blitzars, it helps to know a bit about neutron stars in general.

  • These objects can form when large stars die in gigantic explosions called supernovas.

  • If what's left over after the supernova is massive enough, gravity will pull it all

  • into a black hole.

  • But if there's a little less stuff left over, gravity will sort of force together

  • the protons and electrons from the old star's core.

  • This creates an extremely dense ball of neutrons around fifteen kilometers across -- a neutron star.

  • Neutron stars aren't quite dense enough to become black holes, but they're close.

  • And they're pretty extreme places in their own rights.

  • Just a teaspoon of neutron star has as much mass as Mount Everest, and its surface gravity

  • is almost a trillion times stronger than Earth's.

  • But for this story, the most important thing about neutron stars is that they spin very

  • quickly -- sometimes as fast as a few hundred times a second.

  • They also have super-strong magnetic fields, which can push around any gas that might be

  • near the star.

  • As that gas moves, it emits radio waves.

  • This actually caused a bit of a kerfuffle back in the 1960s.

  • Those radio waves can be so rapid and orderly that, when scientists first found signals

  • from a neutron star, some people thought they had to be messages from aliens.

  • The signals were even namedLGM-1” -- short forLittle Green Men”.

  • Of course, LGM was renamed after we figured out what it was, and neutron stars are at

  • least a little less mysterious now.

  • Don't get me wrong, though -- they're still really weird.

  • And in some situations, neutron stars can be extra strange.

  • In fact, there's one hypothetical scenario where these stars are so dense that they should've

  • been black holes from the beginning.

  • They're called supramassive rotating neutron stars, and they're the culprit behind blitzars.

  • The reason these stars wouldn't have become black holes is because their rotation would

  • have spread out their mass just enough to avoid it.

  • See, spinning objects tend to bulge out because of inertia, so a spinning object is a little

  • bigger -- and a little less dense -- than a stationary one.

  • That difference could be just big enough that it stops those supramassive neutron stars

  • from collapsing.

  • But that couldn't last forever.

  • Like other neutron stars, these would have powerful magnetic fields.

  • And over the years, those fields would carry enough energy away from the star and ultimately

  • make it contract.

  • After anywhere between a few thousand and a million years, it would actually contract

  • so far that it couldn't hold off gravity any longer.

  • The star would suddenly collapse into a black hole, releasing a powerful burst of radio

  • waves as the magnetic fields get broken.

  • That powerful burst is a blitzar.

  • Now, we don't have any concrete evidence that blitzars actually exist -- although there's

  • no reason they shouldn't.

  • But if they do, the fast radio bursts they create would look a lot like a phenomenon

  • scientists have been trying to figure out, called, well, Fast Radio Bursts.

  • Over the last few years, scientists have found more and more of these signals, called FRBs for short.

  • They're exactly what they sound like: huge, quick bursts of radio waves.

  • So far, astronomers aren't sure what causes them, and the ideas they do have are hard to test.

  • FRBs don't usually repeat themselves, and we don't know where to look for the next one.

  • All this uncertainty has -- maybe unsurprisingly -- led some people to speculate that FRBs

  • must be from aliens.

  • But scientists also have a few good, non-alien ideas for explaining FRBs, including some

  • that we've talked about before here on SciShow Space.

  • One other idea, suggested back in 2014 by a pair of European astronomers, is that blitzars

  • would be the perfect solution for at least some of these signals.

  • After all, blitzars are also huge radio bursts, and they also only happen once.

  • And if there were no gas around the supramassive neutron star before it collapsed, we probably

  • wouldn't see any signals from it, either, like we did with LGM-1.

  • Of course, all of this means that blitzars would have to exist, which we don't know yet.

  • To find them, scientists could look for glowing clouds near the FRB's source, which might

  • be some gas that didn't make it into the black hole.

  • But these clouds would be dim and hard to find -- especially for distant FRBs.

  • Still, we don't know any real reason blitzars shouldn't be out there, though, so there's hope.

  • And if they are, it would mean that once again, neutron stars ruined our alien fun by being

  • so darn cool.

  • Thanks for watching this episode of SciShow Space!

  • If you'd like to keep exploring the weird, surprising, and awe-inspiring universe with

  • us, you can go to youtube.com/scishowspace and subscribe.

  • [ ♪ Outro ]

[ ♪ Intro ]

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B1 中級

中子星一直在變得更奇怪 (Neutron Stars Just Keep Getting Weirder)

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    林宜悉 發佈於 2021 年 01 月 14 日
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