[ ♪ 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 named “LGM-1” -- short
for “Little 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 ]
