Questions about matter/antimatter collisions

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SUMMARY

Antimatter particles annihilate with their corresponding matter particles, specifically when an antiparticle meets its matter counterpart, such as a positron with an electron. This annihilation results in the production of electromagnetic radiation, primarily gamma rays. However, complex particles like protons, which consist of multiple quarks, can engage in various interactions beyond simple annihilation. The annihilation occurs due to the fulfillment of conservation laws, and the probability of such events can be analyzed through quantum field theory concepts.

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  • Understanding of elementary particles and antiparticles
  • Familiarity with conservation laws in physics
  • Basic knowledge of quantum field theory
  • Awareness of electromagnetic radiation principles
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  • Study Richard Feynman's principles related to particle interactions
  • Explore the structure of protons and quarks in particle physics
  • Learn about quantum field theory and its applications in particle annihilation
  • Investigate the properties of gamma rays produced during annihilation events
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Physics enthusiasts, students of particle physics, and educators seeking to deepen their understanding of antimatter interactions and annihilation processes.

economancer
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These may seem like silly questions, but seeing as I'm not a physics major (I teach myself about what interests me in any subject really), I could use some clarification on the issue.

Does an anti-particle annihilate only when it meets its "regular matter" particle counterpart, or will the destruction occur when any antimatter particle meets any matter particle? Further, what is the cause of/mechanism for this annihilation?
 
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Every particle is indistinguishable from other particles of the same type. One electron is exactly the same as another electron in the same states. As such, an antimatter particle will annihilate with anything that is it's anti-particle. Positrons will annihilate with any electron. Many times an particle doesn't even have a corresponding antiparticle when it is created.
 
Economancer

well, let's start with the easier part your question. A true elementary particle will 'annihilate' with its antiparticle in the sense particle plus antiparticle goes to pure em radiation (ie gamma rays) BUT with two important caveats

Firstly most particles are not elementary so for instance a proton is more complex since it is made of 3 quarks so it can do a whole lot more than just produce pure em radiation.

Secondly give a particle (or antiparticle) enough energy and it can interact in any way that satisfies all the conservation laws (charge, spin etc etc)

Now for the second part of the question – Why do elementary antiparticles and particles annihilate?

This can be answered at all levels of complexity but my favourite is a quote from the late great Richard Feynman “anything which can happen will happen”.

So they annihilate because they can ! (ie they satisfy all the conservation laws)

A more sophisticated argument would talk about the probability of the annihilation in terms of the 'volume' the phase space for the products of the event but without a whole truck load of quantum field theory that's as far as we can go.

Hope this helps

Regards

Sam
 
So its more complicated than simply antimatter *will* annihilate with matter. I'm reading a book (Antimatter by Frank Close) and either I missed it, haven't gotten there yet, or it just doesn't go into that kind of detail. Thanks, I'm sure I'll be back with more questions eventually.
 

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