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1.3 billion years ago,
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in a distant, distant galaxy,
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two black holes locked into a spiral,
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falling inexorably towards each other
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and collided,
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converting three Suns' worth of stuff
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into pure energy in a tenth of a second.
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For that brief moment in time,
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the glow was brighter than all the stars
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in all the galaxies
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in all of the known Universe.
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It was a very
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big
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bang.
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But they didn't release
their energy in light.
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I mean, you know, they're black holes.
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All that energy was pumped
into the fabric of space and time itself,
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making the Universe explode
in gravitational waves.
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Let me give you a sense
of the timescale at work here.
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1.3 billion years ago,
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Earth had just managed to evolve
multicellular life.
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Since then, Earth has made and evolved
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corals, fish, plants, dinosaurs, people
and even -- God save us -- the Internet.
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And about 25 years ago,
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a particularly audacious set of people --
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Rai Weiss at MIT, Kip Thorne
and Ronald Drever at Caltech --
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decided that it would be really neat
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to build a giant laser detector
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with which to search
for the gravitational waves
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from things like colliding black holes.
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Now, most people thought they were nuts.
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But enough people realized
that they were brilliant nuts
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that the US National Science Foundation
decided to fund their crazy idea.
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So after decades of development,
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construction and imagination
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and a breathtaking amount of hard work,
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they built their detector, called LIGO:
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The Laser Interferometer
Gravitational-Wave Observatory.
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For the last several years,
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LIGO's been undergoing
a huge expansion in its accuracy,
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a tremendous improvement
in its detection ability.
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It's now called Advanced LIGO as a result.
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In early September of 2015,
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LIGO turned on for a final test run
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while they sorted out
a few lingering details.
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And on September 14 of 2015,
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just days after the detector
had gone live,
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the gravitational waves
from those colliding black holes
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passed through the Earth.
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And they passed through you and me.
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And they passed through the detector.
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(Audio) Scott Hughes:
There's two moments in my life
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more emotionally intense than that.
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One is the birth of my daughter.
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The other is when I had to say goodbye
to my father when he was terminally ill.
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You know, it was the payoff
of my career, basically.
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Everything I'd been working on --
it's no longer science fiction! (Laughs)
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Allan Adams: So that's my very good friend
and collaborator, Scott Hughes,
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a theoretical physicist at MIT,
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who has been studying
gravitational waves from black holes
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and the signals that they could impart
on observatories like LIGO,
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for the past 23 years.
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So let me take a moment to tell you
what I mean by a gravitational wave.
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A gravitational wave is a ripple
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in the shape of space and time.
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As the wave passes by,
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it stretches space and everything in it
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in one direction,
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and compresses it in the other.
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This has led to countless instructors
of general relativity
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doing a really silly dance to demonstrate
in their classes on general relativity.
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"It stretches and expands,
it stretches and expands."
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So the trouble with gravitational waves
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is that they're very weak;
they're preposterously weak.
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For example, the waves that hit us
on September 14 --
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and yes, every single one of you
stretched and compressed
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under the action of that wave --
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when the waves hit, they stretched
the average person
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by one part in 10 to the 21.
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That's a decimal place, 20 zeroes,
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and a one.
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That's why everyone thought
the LIGO people were nuts.
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Even with a laser detector five kilometers
long -- and that's already crazy --
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they would have to measure
the length of those detectors
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to less than one thousandth
of the radius of the nucleus
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of an atom.
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And that's preposterous.
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So towards the end
of his classic text on gravity,
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LIGO co-founder Kip Thorne
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described the hunt
for gravitational waves as follows:
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He said, "The technical difficulties
to be surmounted
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in constructing such detectors
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are enormous.
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But physicists are ingenious,
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and with the support
of a broad lay public,
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all obstacles will surely be overcome."
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Thorne published that in 1973,
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42 years before he succeeded.
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Now, coming back to LIGO,
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Scott likes to say that LIGO
acts like an ear
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more than it does like an eye.
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I want to explain what that means.
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Visible light has a wavelength, a size,
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that's much smaller
than the things around you,
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the features on people's faces,
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the size of your cell phone.
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And that's really useful,
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because it lets you make an image
or a map of the things around you,
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by looking at the light
coming from different spots
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in the scene about you.
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Sound is different.
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Audible sound has a wavelength
that can be up to 50 feet long.
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And that makes it really difficult --
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in fact, in practical purposes,
impossible -- to make an image
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of something you really care about.
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Your child's face.
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Instead, we use sound
to listen for features like pitch
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and tone and rhythm and volume
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to infer a story behind the sounds.
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That's Alice talking.
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That's Bob interrupting.
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Silly Bob.
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So, the same is true
of gravitational waves.
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We can't use them to make simple images
of things out in the Universe.
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But by listening to changes
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in the amplitude and frequency
of those waves,
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we can hear the story
that those waves are telling.
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And at least for LIGO,
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the frequencies that it can hear
are in the audio band.
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So if we convert the wave patterns
into pressure waves and air, into sound,
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we can literally hear
the Universe speaking to us.
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For example, listening to gravity,
just in this way,
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can tell us a lot about the collision
of two black holes,
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something my colleague Scott has spent
an awful lot of time thinking about.
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(Audio) SH: If the two black holes
are non-spinning,
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you get a very simple chirp: whoop!
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If the two bodies are spinning
very rapidly, I have that same chirp,
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but with a modulation on top of it,
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so it kind of goes: whir, whir, whir!
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It's sort of the vocabulary of spin
imprinted on this waveform.
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AA: So on September 14, 2015,
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a date that's definitely
going to live in my memory,
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LIGO heard this:
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[Whirring sound]
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So if you know how to listen,
that is the sound of --
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(Audio) SH: ... two black holes,
each of about 30 solar masses,
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that were whirling around at a rate
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comparable to what goes on
in your blender.
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AA: It's worth pausing here
to think about what that means.
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Two black holes, the densest thing
in the Universe,
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one with a mass of 29 Suns
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and one with a mass of 36 Suns,
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whirling around each other
100 times per second
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before they collide.
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Just imagine the power of that.
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It's fantastic.
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And we know it because we heard it.
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That's the lasting importance of LIGO.
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It's an entirely new way
to observe the Universe
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that we've never had before.
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It's a way that lets us hear the Universe
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and hear the invisible.
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And there's a lot out there
that we can't see --
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in practice or even in principle.
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So supernova, for example:
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I would love to know why very massive
stars explode in supernovae.
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They're very useful;
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we've learned a lot
about the Universe from them.
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The problem is, all the interesting
physics happens in the core,
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and the core is hidden behind
thousands of kilometers
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of iron and carbon and silicon.
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We'll never see through it,
it's opaque to light.
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Gravitational waves go through iron
as if it were glass --
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totally transparent.
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The Big Bang: I would love
to be able to explore
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the first few moments of the Universe,
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but we'll never see them,
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because the Big Bang itself
is obscured by its own afterglow.
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With gravitational waves,
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we should be able to see
all the way back to the beginning.
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Perhaps most importantly,
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I'm positive that there
are things out there
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that we've never seen
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that we may never be able to see
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and that we haven't even imagined --
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things that we'll only
discover by listening.
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And in fact, even
in that very first event,
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LIGO found things that we didn't expect.
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Here's my colleague and one of the key
members of the LIGO collaboration,
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Matt Evans, my colleague at MIT,
addressing exactly that:
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(Audio) Matt Evans: The kinds of stars
which produce the black holes
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that we observed here
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are the dinosaurs of the Universe.
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They're these massive things
that are old, from prehistoric times,
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and the black holes are kind of like
the dinosaur bones
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with which we do this archeology.
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So it lets us really get
a whole nother angle
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on what's out there in the Universe
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and how the stars came to be,
and in the end, of course,
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how we came to be out of this whole mess.
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AA: Our challenge now
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is to be as audacious as possible.
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Thanks to LIGO, we know how
to build exquisite detectors
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that can listen to the Universe,
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to the rustle and the chirp of the cosmos.
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Our job is to dream up and build
new observatories --
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a whole new generation of observatories --
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on the ground, in space.
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I mean, what could be more glorious
than listening to the Big Bang itself?
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Our job now is to dream big.
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Dream with us.
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Thank you.
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(Applause)
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