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What would you do
with the largest laser in the world?
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Send a beam into space.
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Strap the laser to the head of a shark.
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Or maybe just use it to amuse your cat.
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Well, the laser that I'm talking about
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is nothing like
your typical laser pointer.
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No, this laser is a thousand
times more powerful
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than the entire US electrical grid.
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It's the most energetic
laser in the world.
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I guarantee you
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you're going to want to keep your cat
far, far away from this laser.
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Now, I'm a physicist,
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so what I would want to do with this laser
is something a little bit different.
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I take that laser and split it
into almost 200 beams,
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and shine them from every angle
onto a little pellet of hydrogen.
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Hydrogen, that very first element
on the periodic table.
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I'd use the laser to squeeze
and compress that hydrogen
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until the atoms themselves fuse.
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That's called fusion.
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And it’s the same reaction
that powers the Sun.
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So with our giant laser,
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we could actually create miniature stars
right here on Earth.
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Pretty cool, right?
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OK, that's the goal.
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But why?
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Why do we care to do this?
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Fusion means unlocking
a different kind of nuclear power.
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Instead of splitting big, heavy atoms,
like we do with fission
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in today's nuclear power plants,
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fusion means bringing together
the atoms of a light element
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until they merge.
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In our case, we're going to use
deuterium and tritium.
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They are isotopes of hydrogen,
heavy hydrogen.
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And if we can use our lasers
to get them close enough together
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at hot enough temperatures,
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and hold them there
long enough until they fuse,
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what we create on the other side
is a helium nucleus and a neutron.
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And it just so happens
that that helium and neutron
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weigh just a little bit less
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than our deuterium
and tritium originally did.
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So we're going to take
that differential in mass
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and put it into an equation
that everybody knows really well.
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Einstein's E equals --
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Audience: MC squared.
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Tammy Ma: E equals MC squared.
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Where that "m"
is that differential in mass,
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we're going to multiply by "c,"
the speed of light,
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a huge, huge number squared,
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and with that, get a tremendous
amount of energy out.
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How tremendous?
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Well one single pound of fusion fuel
has the same amount of energy
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as 5,000 barrels of oil,
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or 3.5 million pounds of coal.
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So fusion is the ultimate energy source,
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not least because the fuel that we need
for fusion is also very abundant.
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Deuterium is naturally
occurring in seawater.
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About one in every 7,000 particles
is D2O instead of H2O.
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And tritium, we know
how to breed from lithium.
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So conceivably we actually
have enough fusion fuel on Earth
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to last us 30 billion years
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of human consumption at today's levels.
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If you ask me, I'd call that
energy security.
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Fusion is also clean energy.
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In our equation,
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it was a deuterium plus a tritium
gave us a helium.
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Carbon is nowhere in that equation.
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Fusion is also inherently safe.
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In order to start a fusion reaction,
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we first have to put energy
into the system to make the atoms fuse.
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So if you ever want to stop
a fusion reaction,
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you just cut off that initial
energy source.
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Fusion will create waste,
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but it's not the kind of waste
that will last for tens
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or hundreds of thousands of years.
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Instead, the low-level
nuclear waste of fusion
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can decay away in just decades.
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And that means we can place
fusion power plants almost anywhere,
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near large population
centers and big cities,
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and fusion power plants
would be compatible
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with our current grid infrastructure
or the smart grids of the future.
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And finally, fusion energy
is also flexible energy.
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Energy when you need it
and can come in different forms.
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Electricity to power our homes,
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but also high-temperature
heat for industrial use.
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Now, to be fair, there are some
downsides to fusion, too.
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Fusion is incredibly complex
and incredibly difficult.
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The development of fusion
has been and will be expensive.
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But the potential benefits of fusion
are so great that it is worth it.
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All right, so how do we actually
make fusion work here on Earth?
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Well, that's the problem
that we've been working on
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for nearly 60 years now.
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Let's go back to that ginormous laser.
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It's called the National
Ignition Facility, or NIF,
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at the Lawrence Livermore National Lab.
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The NIF is the world's largest,
most energetic laser,
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housed in a building the size
of three American football fields,
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side by side and ten stories tall.
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It's not just one laser.
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It's actually 192 separate lasers,
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and each one alone is one
of the most energetic in the world.
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And we're going to combine
all 192 of those lasers
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and shine them on a little fuel pellet
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about the size of a peppercorn.
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Alright, let me take you into the facility
and give you a closer look.
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The laser starts as a little
pulse of light,
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the fraction of the energy
of a typical laser pointer.
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We're going to split
that beam into 192 ways.
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And those beams are now going to bounce
back and forth across this giant facility,
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each beam passing through hundreds
of slabs of laser glass
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getting boosted up in energy.
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In total, each beam
is going to travel nearly a mile
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and get amplified up a million
billion times in energy
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and expanded in size
from a little pinprick
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to over a square foot.
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And then all 192 laser beams
are going to get directed
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towards the fusion chamber.
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Half the laser beams go up
and half come down,
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and they're going to direct
and concentrate their light
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on a tiny cylinder that sits
right in the middle,
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about the size of a pencil eraser.
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The lasers go into that cylinder
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and create a bath of X-rays
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that then envelop the little fuel pellet
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that sits right in the middle.
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Those X-rays are so intense
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that they start blowing off
the shell of that pellet like a rocket.
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And then by conservation of momentum,
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the rest of the capsule squeezes inward,
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equal and opposite reaction.
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We're going to reach temperatures
of over 180 million degrees Fahrenheit,
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hotter than the center of the Sun,
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and pressures that would feel
like 100 billion Earth atmospheres
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pressing down on you.
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And then we start a little spark
right in the center,
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which then propagates
through more of that fuel,
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creating a miniature star,
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and with it a huge burst of energy.
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And if we do it right,
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we can actually get
a whole lot more energy out
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than the energy that went in
to start all of this.
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(Applause)
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I know, it sounds really easy, right?
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(Laughter)
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Well, obviously this is a story
that bridges enormous scales.
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The temperature and density of a star
focused in on the atomic level.
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Remember how I said that laser
is a thousand times the power
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of the US electrical grid?
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Well, power is defined
as energy per unit time.
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So what we're doing is taking
a huge amount of energy
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and compressing it down
into just nanoseconds.
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And that's why every time
we fire the lasers,
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the lights don't flicker across the globe.
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But we are able to create conditions
that are the hottest
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in the entire solar system.
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All right, so I know
what you guys are all thinking.
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Like, how could this actually
possibly work, right?
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And who would be crazy enough to try?
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Well, tens of thousands of scientists
and engineers around the world,
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including me.
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And scientists are trying
all different approaches to fusion.
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Not just giant lasers,
but sometimes giant magnets.
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Things that have cool names
like tokamaks or stellarators
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that can help shape
and contain the fusion.
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And right now, we're actually seeing
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a whole bunch of new,
private start-up fusion companies
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pop up all across the globe,
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each one trying a unique
and different approach to fusion.
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It's a whole host of brave
and brilliant individuals
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working hard to make this dream a reality.
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And our team at Lawrence
Livermore National Lab
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are the stewards of work
that started in 1960
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because of national security.
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We need to understand fusion,
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to understand how to ensure
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that our US nuclear arsenal
stays safe and effective.
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And that is what has provided
the steady funding
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to pursue this very difficult
physics challenge over decades.
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So yeah, it took us 12 years
to build the NIF,
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and we've been doing experiments using it
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for nearly 15 years more now.
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And in that time, we've improved
our physics understanding
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and computational simulation models.
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We've designed new diagnostic instruments
capable of taking better, clearer,
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faster pictures of the experiment.
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We've continuously pushed up
the laser energy
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and found ways to build better targets.
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And guess what?
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In December of 2022, we finally did it.
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(Applause)
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Our team at Lawrence Livermore National
Lab demonstrated fusion ignition.
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For the very first time in human history,
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we generated a controlled
thermonuclear fusion reaction
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in the laboratory
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that generated more energy out
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than went in with the lasers to start it.
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(Applause)
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That's right, we were able
to light a match
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and turn that into a bonfire.
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And in the process,
release a new form of energy
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that is a million times more energetic
than a chemical reaction.
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And now,
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now we've actually been able
to repeat ignition four more times
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in just the last 15 months,
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with our most successful experiment
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giving us over twice as much energy out
as we put in with the lasers.
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So are we done?
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Well, not quite.
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In order to move towards
that fusion-energy future,
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we'll have to figure out
how to harness this energy
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in a working fusion power plant.
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And to be clear,
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there's still a long scientific
and engineering road ahead.
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Just to build on our successes at NIF,
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we'll have to build more efficient lasers,
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mass manufacture targets
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and figure out robotics
for automated operations and more.
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The depth and breadth of this challenge
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will require sustained investment
from government and private industry,
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and all of us working together.
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We're all racing to make this a reality,
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but there's still a lot
more work to be done.
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I don't know exactly
how long this will all take,
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but I do know that we can do it.
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And when we do it,
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when we make fusion energy a reality,
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energy will become so plentiful
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that it will no longer
be a limited resource.
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This will change the world as we know it.
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When energy becomes essentially unlimited,
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there are unlimited ways
to use this energy.
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Every country will be energy independent.
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Standards of living will
rise around the world,
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and we'll be able to use energy
in creative new ways as well,
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like carbon capture at scale
to combat climate change.
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Vertical farming for delicious,
sustainable food for all,
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and desalination of seawater
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so that everybody
has access to clean water.
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We can do all this and more with fusion.
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Fusion can ignite that future.
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Thank you.
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(Applause)
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