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Black holes are among the most
destructive objects in the universe.
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Anything that gets too close to the
central singularity of a black hole,
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be it an asteroid, planet, or star,
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risks being torn apart by its
extreme gravitational field.
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And if the approaching object happens
to cross the black hole’s event horizon,
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it’ll disappear and never re-emerge,
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adding to the black hole’s mass and
expanding its radius in the process.
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There is nothing we could throw
at a black hole
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that would do the least bit of
damage to it.
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Even another black hole won’t destroy it–
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the two will simply merge into a larger
black hole,
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releasing a bit of energy as gravitational
waves in the process.
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By some accounts,
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it’s possible that the universe may
eventually consist entirely of black holes
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in a very distant future.
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And yet, there may be a way to destroy,
or “evaporate,” these objects after all.
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If the theory is true,
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all we need to do is to wait.
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In 1974,
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Stephen Hawking theorized a process
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that could lead a black hole
to gradually lose mass.
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Hawking radiation, as it came to be known,
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is based on a well-established phenomenon
called quantum fluctuations of the vacuum.
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According to quantum mechanics,
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a given point in spacetime fluctuates
between multiple possible energy states.
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These fluctuations are driven by the
continuous creation and destruction
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of virtual particle pairs,
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which consist of a particle and its
oppositely charged antiparticle.
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Normally, the two collide and annihilate
each other shortly after appearing,
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preserving the total energy.
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But what happens when they appear just at
the edge of a black hole’s event horizon?
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If they’re positioned just right,
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one of the particles could escape the
black hole’s pull
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while its counterpart falls in.
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It would then annihilate another
oppositely charged particle
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within the event horizon
of the black hole,
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reducing the black hole’s mass.
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Meanwhile, to an outside observer,
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it would look like the black hole
had emitted the escaped particle.
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Thus, unless a black hole continues
to absorb additional matter and energy,
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it’ll evaporate particle by particle,
at an excruciatingly slow rate.
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How slow?
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A branch of physics, called black hole
thermodynamics, gives us an answer.
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When everyday objects or celestial bodies
release energy to their environment,
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we perceive that as heat,
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and can use their energy emission to
measure their temperature.
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Black hole thermodynamics
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suggests that we can similarly define the
“temperature” of a black hole.
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It theorizes that the more massive the
black hole,
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the lower its temperature.
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The universe’s largest black holes
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would give off temperatures of the
order of 10 to the -17th power Kelvin,
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very close to absolute zero.
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Meanwhile, one with the
mass of the asteroid Vesta
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would have a temperature close to 200
degrees Celsius,
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thus releasing a lot of energy
in the form of Hawking Radiation
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to the cold outside environment.
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The smaller the black hole,
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the hotter it seems to be burning–
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and the sooner it’ll burn out completely.
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Just how soon?
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Well, don’t hold your breath.
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First of all, most black holes accrete,
or absorb matter and energy,
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more quickly than they emit
Hawking radiation.
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But even if a black hole with the
mass of our Sun stopped accreting,
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it would take 10 to the 67th power years–
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many many magnitudes longer than the
current age of the Universe—
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to fully evaporate.
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When a black hole reaches
about 230 metric tons,
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it’ll have only one more second to live.
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In that final second,
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its event horizon becomes
increasingly tiny,
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until finally releasing all of its energy
back into the universe.
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And while Hawking radiation has never
been directly observed,
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some scientists believe that certain gamma
ray flashes detected in the sky
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are actually traces of the last moments
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of small, primordial black holes formed
at the dawn of time.
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Eventually, in an almost inconceivably
distant future,
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the universe may be left
as a cold and dark place.
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But if Stephen Hawking was right,
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before that happens,
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the normally terrifying and otherwise
impervious black holes
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will end their existence in a final
blaze of glory.
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