Quantum Physics for Beginners: Discover The Most Mind-Blowing Quantum Physics Theories Made Easy to Understand the Secrets and Wonders of the Science that is Changing our Lives by Berg Elliot

Author:Berg, Elliot [Berg, Elliot]
Language: eng
Format: epub, azw3, pdf
Published: 2020-06-01T16:00:00+00:00

6. It’s an Antimatter of Pair Creation and Annihilation

Now, we have talked about light quite a lot in the last few chapters, and necessarily so, since it was the momentum that gave way to the quantum mechanics. But now that we have familiarized ourselves with the basis, and know how particles, waves, and fields behave, it’s time to talk about some more complex and quite frankly more interesting matters, or rather antimatters.

Pretty much everything in the universe is made out of matter - the earth, air, you and me, stars, interstellar dust - all matter.

By which we mean that these things are made out of electrons and quarks - and very occasionally other rarer matter particles like muons, tauons, and neutrinos.

All of these particles are, at their fundamental level, excitations in everywhere-permeating quantum fields.

But, as the famous quote goes, “for every particle, there is an equal and opposite antiparticle - an opposite excitation in the everywhere permeating quantum field that has all of the exact same properties as that particle - except opposite charge.” And since these antiparticles are opposite excitations of the quantum field, when a particle and antiparticle meet, they annihilate and destroy each other!

Which is pretty much exactly like how the equation x^2=4 has two solutions: 2 and -2, with the same value but opposite sign. And when they meet, they annihilate!

Every fundamental particle has an antiparticle: there are antiquarks, antineutrinos, antimuons, antitauons, and of course antielectrons - though we call them positrons .

Since antimatter particles are essentially identical to regular matter other than the opposite charge thing, they can combine together in essentially identical ways to form antiprotons, anti-atoms, anti-molecules, and, in principle, anything from anti-ants to anti-horses.

But we can also make the really cool positronium atom - it’s like hydrogen, except instead of an electron orbiting a proton, it’s an electron orbiting a POSITRON, well, at least until they annihilate each other in under a nanosecond.

Because every particle of antimatter annihilates with regular matter upon meeting, it’s really hard to make anything big out of antimatter - at this point we’re still only able to make and contain a few hundred antihydrogen atoms at one time. And when they annihilate, the energy of particle and antiparticle has to go somewhere, which is why matter/antimatter annihilations have been proposed as bombs.

But naturally occurring antimatter is hard to come by.

So, unlike a uranium fission bomb, which allow us to release the bottled energy of the supernovas that forged the uranium in the first place, you’d have to put all the energy into an antimatter bomb yourself by making antimatter. Which you do by agitating empty space into pairs of matter and antimatter excitations.

Kind of like hitting zero with a hammer to get out 2 and minus 2, except instead of a hammer, you use a particle accelerator or high-energy photons of light.

Photons, incidentally, have zero charge and so are their OWN antiparticles, in the same way that zero is equal to negative zero !

In fact, mathematics has

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