Australian physicist and science communicator
Suzanne Lyn Sheehy (born 1984) is an Australian accelerator physicist who runs research groups at the University of Oxford and the , where she is developing new s for applications in medicine.
From: Wikiquote (CC BY-SA 4.0)
Alternative Names:
Suzanne Sheehy
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Suzanne L. Sheehy
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Suzanne Lyn Sheehy
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S. L. Sheehy
From Wikidata (CC0)
And if you go up and up and up and up, we understand how the different forces in the universe work, from electromagnetism to the strong and weak nuclear force, and then finally right at the top we get to this Higgs thing, which is the theory behind why all of the other particles in the Standard Model have a .
[I]f you take Einstein's equation E=mc<sup>2</sup>, E is energy, m is the mass and c is 299,792,458 meters per second, so that squared, I'd have to get to tell me what that is, but that's a very big number. So it takes an enormous amount of energy to create even a tiny tiny amount of matter. So that's why, over the years, our machines have gotten bigger and bigger and bigger, and reached up to higher and higher energies in order to create particles of higher and higher masses. Now that might seem slightly counterintuitive, but if we look down at the low energy scale, we get our... everyday objects, and in fact up here at sort of 10 MeV, which is like a sort of everyday energy scale, are the up and s where our s and s are created from. And if we go up in energy scale, we slowly... over time discovered all these other types of s and s, and all these other things that seem to play no role in our everyday lives.
[I]nside the atom there are only... three different types of particles, which are the up and s, they're the constituents of s and s inside the atom, and the electron. Everything else there plays very little role in our day-to-day lives. But over about the last century we've discovered that all of these particles fit together in a neat theory that describes our universe to something like 9 or 10 decimal places. It is an incredible amount of discovery and work that's gone into it, and I cannot do it justice in... two minutes. But the latest piece that we've discovered using the Large Hadron Collider, and one of the reasons, but not the only reason that it was built, was to discover... the Higgs boson.
Most people now, when I say particle accelerator, think of... the bohemoth. This is the . It is almost 27 km in circumference, which is why the tunnel looks almost straight. It's about 100 meters underground, over the border between France and Switzerland. ...Inside these magnets here, these big blue long ones it's one of the coldest places in the universe at 1.9°K above . ...[I]t accelerates two beams of s, from inside the atom, in opposite directions at 99.99999% (that's the exact number) of the speed of light and smashes them into each other... [I]t is what I like to call an impressive shiny huge piece of kit that's bigger than everyone else's!