A theory of everything | Garrett Lisi

511,927 views ・ 2008-10-16

TED


Please double-click on the English subtitles below to play the video.

00:20
Whoa, dude.
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(Laughter)
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Check out those killer equations. Sweet.
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Actually, for the next 18 minutes I'm going to do the best I can
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to describe the beauty of particle physics without equations.
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It turns out there's a lot we can learn from coral.
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A coral is a very beautiful and unusual animal.
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Each coral head consists of thousands of individual polyps.
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These polyps are continually budding and branching
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into genetically identical neighbors.
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If we imagine this to be a hyperintelligent coral,
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we can single out an individual and ask him a reasonable question.
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We can ask how exactly he got to be in this particular location
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compared to his neighbors --
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if it was just chance, or destiny, or what?
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Now, after admonishing us for turning the temperature up too high,
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he would tell us that our question was completely stupid.
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These corals can be kind of mean, you see,
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and I have surfing scars to prove that.
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But this polyp would continue and tell us
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that his neighbors were quite clearly identical copies of him.
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That he was in all these other locations as well,
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but experiencing them as separate individuals.
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For a coral, branching into different copies
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is the most natural thing in the world.
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Unlike us, a hyperintelligent coral
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would be uniquely prepared to understand quantum mechanics.
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The mathematics of quantum mechanics
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very accurately describes how our universe works.
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And it tells us our reality is continually branching into different possibilities,
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just like a coral.
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It's a weird thing for us humans to wrap our minds around,
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since we only ever get to experience one possibility.
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This quantum weirdness was first described
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by Erwin Schrödinger and his cat.
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The cat likes this version better.
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(Laughter)
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In this setup, Schrödinger is in a box with a radioactive sample
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that, by the laws of quantum mechanics, branches into a state
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in which it is radiated and a state in which it is not.
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(Laughter)
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In the branch in which the sample radiates,
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it sets off a trigger that releases poison and Schrödinger is dead.
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But in the other branch of reality, he remains alive.
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These realities are experienced separately by each individual.
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As far as either can tell, the other one doesn't exist.
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This seems weird to us,
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because each of us only experiences an individual existence,
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and we don't get to see other branches.
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It's as if each of us, like Schrödinger here,
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are a kind of coral branching into different possibilities.
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The mathematics of quantum mechanics tells us
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this is how the world works at tiny scales.
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It can be summed up in a single sentence:
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Everything that can happen, does.
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That's quantum mechanics.
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But this does not mean everything happens.
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The rest of physics is about describing what can happen and what can't.
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What physics tells us is that everything comes down to geometry
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and the interactions of elementary particles.
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And things can happen only if these interactions are perfectly balanced.
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03:18
Now I'll go ahead and describe how we know about these particles,
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what they are and how this balance works.
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In this machine, a beam of protons and antiprotons
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are accelerated to near the speed of light
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and brought together in a collision, producing a burst of pure energy.
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This energy is immediately converted into a spray of subatomic particles,
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with detectors and computers used to figure out their properties.
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This enormous machine --
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the Large Hadron Collider at CERN in Geneva --
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has a circumference of 17 miles and, when it's operating,
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draws five times as much power as the city of Monterey.
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We can't predict specifically
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what particles will be produced in any individual collision.
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Quantum mechanics tells us all possibilities are realized.
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But physics does tell us what particles can be produced.
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These particles must have just as much mass and energy
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as is carried in by the proton and antiproton.
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Any particles more massive than this energy limit aren't produced,
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and remain invisible to us.
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This is why this new particle accelerator is so exciting.
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It's going to push this energy limit seven times
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beyond what's ever been done before,
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so we're going to get to see some new particles very soon.
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But before talking about what we might see,
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let me describe the particles we already know of.
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There's a whole zoo of subatomic particles.
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Most of us are familiar with electrons.
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A lot of people in this room make a good living pushing them around.
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(Laughter)
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But the electron also has a neutral partner called the neutrino,
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with no electric charge and a very tiny mass.
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In contrast, the up and down quarks have very large masses,
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and combine in threes to make the protons and neutrons inside atoms.
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All of these matter particles come in left- and right-handed varieties,
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and have antiparticle partners that carry opposite charges.
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These familiar particles
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also have less familiar second and third generations,
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which have the same charges as the first but have much higher masses.
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These matter particles all interact with the various force particles.
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The electromagnetic force interacts with electrically charged matter
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via particles called photons.
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There is also a very weak force
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called, rather unimaginatively, the weak force ...
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(Laughter)
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that interacts only with left-handed matter.
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The strong force acts between quarks
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which carry a different kind of charge, called color charge,
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and come in three different varieties: red, green and blue.
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You can blame Murray Gell-Mann for these names -- they're his fault.
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Finally, there's the force of gravity,
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which interacts with matter via its mass and spin.
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The most important thing to understand here
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is that there's a different kind of charge associated with each of these forces.
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These four different forces interact with matter
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according to the corresponding charges that each particle has.
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A particle that hasn't been seen yet, but we're pretty sure exists,
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is the Higgs particle, which gives masses to all these other particles.
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The main purpose of the Large Hadron Collider
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is to see this Higgs particle, and we're almost certain it will.
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But the greatest mystery is what else we might see.
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And I'm going to show you one beautiful possibility
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towards the end of this talk.
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Now, if we count up all these different particles
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using their various spins and charges,
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there are 226.
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That's a lot of particles to keep track of.
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And it seems strange
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that nature would have so many elementary particles.
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But if we plot them out according to their charges,
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some beautiful patterns emerge.
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The most familiar charge is electric charge.
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Electrons have an electric charge,
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a negative one,
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and quarks have electric charges in thirds.
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So when two up quarks and a down quark are combined to make a proton,
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it has a total electric charge of plus one.
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These particles also have antiparticles, which have opposite charges.
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Now, it turns out the electric charge
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is actually a combination of two other charges:
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hypercharge and weak charge.
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If we spread out the hypercharge and weak charge
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and plot the charges of particles in this two-dimensional charge space,
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the electric charge is where these particles sit
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along the vertical direction.
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The electromagnetic and weak forces interact with matter
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according to their hypercharge and weak charge,
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which make this pattern.
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This is called the unified electroweak model,
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and it was put together back in 1967.
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The reason most of us are only familiar with electric charge
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and not both of these is because of the Higgs particle.
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The Higgs, over here on the left, has a large mass
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and breaks the symmetry of this electroweak pattern.
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It makes the weak force very weak by giving the weak particles a large mass.
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Since this massive Higgs sits along the horizontal direction in this diagram,
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the photons of electromagnetism remain massless
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and interact with electric charge along the vertical direction
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in this charge space.
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So the electromagnetic and weak forces
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are described by this pattern of particle charges
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in two-dimensional space.
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We can include the strong force by spreading out its two charge directions
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and plotting the charges of the force particles in quarks
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along these directions.
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The charges of all known particles
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can be plotted in a four-dimensional charge space,
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and projected down to two dimensions like this so we can see them.
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Whenever particles interact, nature keeps things in a perfect balance
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along all four of these charge directions.
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If a particle and an antiparticle collide,
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it creates a burst of energy and a total charge of zero
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in all four charge directions.
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At this point, anything can be created
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as long as it has the same energy and maintains a total charge of zero.
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For example, this weak force particle and its antiparticle
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can be created in a collision.
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In further interactions, the charges must always balance.
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One of the weak particles could decay into an electron and an antineutrino,
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and these three still add to zero total charge.
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Nature always keeps a perfect balance.
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So these patterns of charges are not just pretty.
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They tell us what interactions are allowed to happen.
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And we can rotate this charge space in four dimensions
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to get a better look at the strong interaction,
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which has this nice hexagonal symmetry.
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In a strong interaction, a strong force particle,
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such as this one,
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interacts with a colored quark, such as this green one,
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to give a quark with a different color charge -- this red one.
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And strong interactions are happening millions of times
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each second in every atom of our bodies,
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holding the atomic nuclei together.
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But these four charges corresponding to three forces
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are not the end of the story.
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We can also include two more charges corresponding to the gravitational force.
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When we include these,
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each matter particle has two different spin charges,
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spin-up and spin-down.
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So they all split and give a nice pattern in six-dimensional charge space.
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We can rotate this pattern in six dimensions
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and see that it's quite pretty.
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Right now, this pattern matches our best current knowledge
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of how nature is built at the tiny scales of these elementary particles.
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This is what we know for certain.
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Some of these particles are at the very limit
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of what we've been able to reach with experiments.
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From this pattern
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we already know the particle physics of these tiny scales --
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the way the universe works at these tiny scales is very beautiful.
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But now I'm going to discuss some new and old ideas
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about things we don't know yet.
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We want to expand this pattern using mathematics alone,
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and see if we can get our hands on the whole enchilada.
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We want to find all the particles and forces
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that make a complete picture of our universe.
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And we want to use this picture to predict new particles
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that we'll see when experiments reach higher energies.
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So there's an old idea in particle physics
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that this known pattern of charges,
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which is not very symmetric,
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could emerge from a more perfect pattern that gets broken --
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similar to how the Higgs particle breaks the electroweak pattern
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to give electromagnetism.
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In order to do this, we need to introduce new forces
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with new charge directions.
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When we introduce a new direction,
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we get to guess what charges the particles have along this direction,
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and then we can rotate it in with the others.
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If we guess wisely, we can construct the standard charges
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in six charge dimensions as a broken symmetry
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of this more perfect pattern in seven charge dimensions.
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This particular choice corresponds to a grand unified theory
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introduced by Pati and Salam in 1973.
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When we look at this new unified pattern,
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we can see a couple of gaps where particles seem to be missing.
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This is the way theories of unification work.
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A physicist looks for larger, more symmetric patterns
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that include the established pattern as a subset.
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The larger pattern allows us to predict the existence of particles
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that have never been seen.
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This unification model predicts the existence
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of these two new force particles,
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which should act a lot like the weak force, only weaker.
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Now, we can rotate this set of charges in seven dimensions
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and consider an odd fact about the matter particles:
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the second and third generations of matter
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have exactly the same charges in six-dimensional charge space
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as the first generation.
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These particles are not uniquely identified by their six charges.
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They sit on top of one another in the standard charge space.
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However, if we work in eight-dimensional charge space,
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then we can assign unique new charges to each particle.
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Then we can spin these in eight dimensions
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and see what the whole pattern looks like.
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Here we can see the second and third generations of matter now,
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related to the first generation by a symmetry called "triality."
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This particular pattern of charges in eight dimensions
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is actually part of the most beautiful geometric structure in mathematics.
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It's a pattern of the largest exceptional Lie group, E8.
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This Lie group is a smooth, curved shape with 248 dimensions.
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Each point in this pattern corresponds to a symmetry
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of this very complex and beautiful shape.
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One small part of this E8 shape can be used to describe
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the curved space-time of Einstein's general relativity,
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explaining gravity.
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Together with quantum mechanics,
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the geometry of this shape could describe everything
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about how the universe works at the tiniest scales.
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The pattern of this shape living in eight-dimensional charge space
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is exquisitely beautiful,
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and it summarizes thousands of possible interactions
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between these elementary particles,
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each of which is just a facet of this complicated shape.
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As we spin it, we can see many of the other intricate patterns
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contained in this one.
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And with a particular rotation,
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we can look down through this pattern in eight dimensions along a symmetry axis
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and see all the particles at once.
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It's a very beautiful object,
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and as with any unification,
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we can see some holes where new particles are required by this pattern.
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There are 20 gaps where new particles should be,
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two of which have been filled by the Pati-Salam particles.
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From their location in this pattern, we know that these new particles
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should be scalar fields like the Higgs particle,
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but have color charge and interact with the strong force.
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Filling in these new particles completes this pattern,
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giving us the full E8.
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This E8 pattern has very deep mathematical roots.
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It's considered by many to be the most beautiful structure in mathematics.
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It's a fantastic prospect that this object of great mathematical beauty
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could describe the truth of particle interactions
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at the smallest scales imaginable.
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And this idea that nature is described by mathematics is not at all new.
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In 1623, Galileo wrote this:
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"Nature's grand book, which stands continually open to our gaze,
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is written in the language of mathematics.
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Its characters are triangles, circles and other geometrical figures,
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without which it is humanly impossible to understand a single word of it;
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without these, one is wandering around in a dark labyrinth."
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I believe this to be true,
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and I've tried to follow Galileo's guidance
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in describing the mathematics of particle physics
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using only triangles, circles and other geometrical figures.
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Of course, when other physicists and I actually work on this stuff,
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the mathematics can resemble a dark labyrinth.
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But it's reassuring that at the heart of this mathematics
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is pure, beautiful geometry.
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Joined with quantum mechanics,
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this mathematics describes our universe as a growing E8 coral,
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with particles interacting at every location in all possible ways
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according to a beautiful pattern.
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And as more of the pattern comes into view using new machines
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like the Large Hadron Collider,
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we may be able to see whether nature uses this E8 pattern or a different one.
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This process of discovery is a wonderful adventure to be involved in.
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If the LHC finds particles that fit this E8 pattern,
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that will be very, very cool.
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If the LHC finds new particles, but they don't fit this pattern --
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well, that will be very interesting, but bad for this E8 theory.
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And, of course, bad for me personally.
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(Laughter)
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Now, how bad would that be?
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Well, pretty bad.
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(Laughter)
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But predicting how nature works is a very risky game.
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This theory and others like it are long shots.
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One does a lot of hard work knowing that most of these ideas
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probably won't end up being true about nature.
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That's what doing theoretical physics is like:
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there are a lot of wipeouts.
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In this regard, new physics theories are a lot like start-up companies.
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As with any large investment,
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it can be emotionally difficult to abandon a line of research
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when it isn't working out.
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But in science, if something isn't working,
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you have to toss it out and try something else.
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Now, the only way to maintain sanity
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and achieve happiness in the midst of this uncertainty
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is to keep balance and perspective in life.
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I've tried the best I can to live a balanced life.
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(Laughter)
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I try to balance my life equally between physics, love and surfing --
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my own three charge directions.
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(Laughter)
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This way, even if the physics I work on comes to nothing,
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I still know I've lived a good life.
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And I try to live in beautiful places.
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For most of the past ten years I've lived on the island of Maui,
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a very beautiful place.
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Now, it's one of the greatest mysteries in the universe to my parents
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how I managed to survive all that time
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without engaging in anything resembling full-time employment.
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(Laughter)
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I'm going to let you in on that secret.
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This was a view from my home office on Maui.
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And this is another,
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and another.
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And you may have noticed that these beautiful views are similar,
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but in slightly different places.
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That's because this used to be my home and office on Maui.
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(Laughter)
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I've chosen a very unusual life.
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But not worrying about rent
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allowed me to spend my time doing what I love.
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Living a nomadic existence has been hard at times,
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but it's allowed me to live in beautiful places
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and keep a balance in my life that I've been happy with.
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It allows me to spend a lot of my time hanging out with hyperintelligent coral.
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But I also greatly enjoy the company of hyperintelligent people.
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So I'm very happy to have been invited here to TED.
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Thank you very much.
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(Applause)
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Chris Anderson: Stay here one second.
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(Applause)
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I probably understood two percent of that,
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but I still absolutely loved it.
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So I'm going to sound dumb.
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Your theory of everything --
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Garrett Lisi: I'm used to coral.
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CA: That's right.
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The reason it's got a few people at least excited
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is because, if you're right, it brings gravity and quantum theory together.
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So are you saying that we should think of the universe, at its heart --
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that the smallest things that there are,
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are somehow an E8 object of possibility?
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I mean, is there a scale to it, at the smallest scale, or ...?
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GL: Well, right now the pattern I showed you
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that corresponds to what we know about elementary particle physics --
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that already corresponds to a very beautiful shape.
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And that's the one that I said we knew for certain.
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And that shape has remarkable similarities --
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and the way it fits into this E8 pattern, which could be the rest of the picture.
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And these patterns of points that I've shown for you
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actually represent symmetries of this high-dimensional object
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19:33
that would be warping and moving and dancing
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over the space-time that we experience.
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And that would be what explains all these elementary particles that we see.
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CA: But a string theorist, as I understand it,
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explains electrons in terms of much smaller strings vibrating --
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I know, you don't like string theory -- vibrating inside it.
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How should we think of an electron in relation to E8?
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GL: Well, it would be one of the symmetries of this E8 shape.
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So what's happening is, as the shape is moving over space-time, it's twisting.
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And the direction it's twisting as it moves is what particle we see.
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So it would be --
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CA: The size of the E8 shape, how does that relate to the electron?
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I feel like I need that for my picture. Is it bigger? Is it smaller?
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GL: As far as we know, electrons are point particles,
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20:21
so this would be going down to the smallest possible scales.
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20:24
So the way these things are explained in quantum field theory is,
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20:27
all possibilities are expanding and developing at once.
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And this is why I use the analogy to coral.
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And --
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in this way, the way that E8 comes in
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is it will be as a shape that's attached at each point in the space-time.
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And, as I said, the way the shape twists --
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the directional along which way the shape is twisting
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as it moves over this curved surface --
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is what the elementary particles are, themselves.
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So through quantum field theory,
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they manifest themselves as points and interact that way.
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I don't know if I'll be able to make this any clearer.
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(Laughter)
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CA: It doesn't really matter.
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It's evoking a kind of sense of wonder,
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and I certainly want to understand more of this.
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But thank you so much for coming. That was absolutely fascinating.
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(Applause)
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