The Higgs Field, explained - Don Lincoln

1,022,601 views ・ 2013-08-27

TED-Ed


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

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Without a doubt,
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the most exciting scientific observation of 2012
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was the discovery of a new particle
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at the CERN laboratory
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that could be the Higgs boson,
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a particle named after physicist Peter Higgs.
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The Higgs Field is thought to give mass
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to fundamental, subatomic particles
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like the quarks
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and leptons
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that make up ordinary matter.
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The Higgs bosons are wiggles in the field,
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like the bump you see
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when you twitch a rope.
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But how does this field give mass to particles?
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If this sounds confusing to you,
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you're not alone.
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In 1993, the British Science Minister
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challenged physicists to invent a simple way
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to understand all this Higgs stuff.
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The prize was a bottle of quality champagne.
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The winning explanation went something like this:
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Suppose there's a large cocktail party
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at the CERN laboratory
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filled with particle physics researchers.
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This crowd of physicists represents the Higgs field.
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If a tax collector entered the party,
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nobody would want to talk to them,
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and they could very easily cross the room
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to get to the bar.
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The tax collector wouldn't interact with the crowd
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in much the same way
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that some particles don't interact with the Higgs field.
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The particles that don't interact,
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like photons for example,
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are called massless.
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Now, suppose that Peter Higgs entered the same room,
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perhaps in search of a pint.
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In this case, the physicists
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will immediately crowd around Higgs
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to discuss with him
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their efforts to measure the properties
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of his namesake boson.
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Because he interacts strongly with the crowd,
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Higgs will move slowly across the room.
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Continuing our analogy,
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Higgs has become a massive particle
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through his interactions with the field.
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So, if that's the Higgs field,
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how does the Higgs boson fit into all of this?
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Let's pretend our crowd of party goers
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is uniformly spread across the room.
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Now suppose someone pops their head in the door
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to report a rumor of a discovery
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at some distant, rival laboratory.
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People near the door will hear the rumor,
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but people far away won't,
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so they'll move closer to the door to ask.
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This will create a clump in the crowd.
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As people have heard the rumor,
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they will return to their original positions
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to discuss its implications,
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but people further away will then ask what's going on.
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The result will be a clump in the crowd
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that moves across the room.
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This clump is analogous to the Higgs boson.
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It is important to remember
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that it is not that massive particles
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interact more with the Higgs field.
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In our analogy of the party,
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all particles are equal until they enter the room.
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Both Peter Higgs and the tax collector have zero mass.
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It is the interaction with the crowd
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that causes them to gain mass.
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I'll say that again.
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Mass comes from interactions with a field.
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So, let's recap.
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A particle gets more or less mass
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depending on how it interacts with a field,
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just like different people will move through the crowd
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at different speeds depending on their popularity.
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And the Higgs boson is just a clump in the field,
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like a rumor crossing the room.
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Of course, this analogy is just that --
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an analogy,
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but it's the best analogy
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anyone has come up with so far.
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So, that's it.
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That's what the Higgs Field
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and the Higgs boson is all about.
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Continuing research will tell us if we found it,
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and the reward will probably be more
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than just a bottle of champagne.
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