nicolo cartiglia -infn torino1 very difficult questions about elementary particle physics friendly...
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Nicolo Cartiglia -INFN Torino 1
Very difficult questions about elementary particle physics
Friendly chat at Lucia’s school
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A very short summary Today
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What does it mean to study “particle physics” ?
It means you want to answer questions like these:
If you keep on breaking things up, what is the smallest piece you are left with?
Is there another universe where I can go to get away from my homework?
Is a black hole going to eat my lunch?
We don’t really know, we have not finished smashing our particles..
That is pretty unlikely….even though not impossible
I’m afraid not..sorry….
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How many unbreakable “particles” are there?
What do we know about nature?
we think 12, however we are still looking for a few missing
And how many forces?
GravityElectricity and magnetismA strong force, to keep atoms togetherA weak force, to make particles disappear
So, maybe there are only 4 forces, but maybe 5 or 6..
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u
d
c
s
t
b
e
e
Problem:Nature uses these 4 particles
quark
leptons
If you are curious, these are the 12 fundamental particles
Not sure why they exist…
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Is it true that anti-matter exists?
YES!! We do it all the time, every day of the year….
It turns out that each particle has a “twin inverted sister” with opposite properties
Lucia Anti-Lucia
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A bigger problem….
The rules of nature tell us that the universe should be made of matter and antimatter, equally, however…
we have no idea where the antimatter has gone. In short:
We have lost 50% of the universe
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Using an accelerator, you accelerate particles to the speed of light, and then you smash them into each other
How do you make new particles?
This is my job: I break-up particles and I look at what is produced in the collision.
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You own some small accelerators at home: •Old electric bulbs: electrons fly from the filament to the glass•Your old TV (not the flat screen): electron guns shoot electrons at the screen•Every time you turn on the light, you make a lot of particles called “photons”
small, Medium, Large, Extra Large, and Huge
accelerators are in laboratories. They can be many miles long, and they are the most complex machines ever made.
The most famous accelerator is the LHC, at the CERN laboratory in Switzerland
How big is a particle accelerator?
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Ladies…The Large Hadron Collider
27 km long…..
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A time-travel machine
Most of the particles we make in accelerators are not present normally in nature, you cannot mail-order any of them…
These particles existed just after the beginning of the universe (the BIG-BANG), and then they disappear.
So we can say that in our accelerator we are ‘reproducing” what happened just after the BIG-BANG.
Larger accelerators go further back in time..
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Let’s make a summary before going to CERN(European Center for Nuclear Research)
Nature is made of very few particles
We don’t quite know the purpose of many of them
We make new particles breaking-up old one in particle accelerators
Studying particle physics is equivalent to study the BIG-BANG
We have lost 50% of the universe
Let’s go see the largest particle accelerator ever made…
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LHC @ CERN: A particle speeding track 27 kilometers long, 100 meter underground
The Large Hadron Collider.Large is an understatement!Hadrons mean protons. Collide is what it does.
Tiny bunches of counter-circulating protons. Colliding head-on 40 million times each second.
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Antonaldo Diaferio
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What do we want to find at the LHC?
Among the many new particles we are hoping to find, one is particularly important:
The HIGGS particle
The Higgs boson is very heavy and therefore it’s very difficult to create it. We have been trying to find it for the past 20 years, but now we think we can finally do it..
There is one small detail: the theory might be wrong, and the HIGGS boson might not exist..
That would be really embarrassing
Mr Higgs
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We have other unsolved mysteries…
Now that we know everything about nature, we can approach more complex problems:
- Let suppose the BIG-BANG is the beginning of this universe.
What was there before? Why did it start?
- Are there OTHER universes?
- Are they really only 3 dimensions? Some very serious theories
suggest the dimensions are 11…
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Our biggest problem ever
I told you that nature is made of 12 particles plus a few more..
Looking at the gravitational force of all galaxies, we understood that we cannot account for a very large part of the universe.
Unfortunately this is not true…
We have lost 96% of the universe
The missing part is called dark energy and dark matter
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Movie time!
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Grand Summary
Particle physics studies the most fundamental aspects of nature
We have done great progresses in understanding nature
Many aspects are still a mystery
We need young, bright motivated students, so please join us in this fantastic trip
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