Help me think about Proton-Proton -> Proton+Antiproton collision

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To produce a proton-antiproton pair in a proton-proton collision, the moving proton must have energy exceeding 5.6 GeV, overcoming the Coulomb barrier of the stationary proton. The minimum energy ensures that both the proton and antiproton are at rest post-collision, with their combined rest mass energy being 2*938 MeV. The discussion highlights confusion regarding energy conservation and the appropriate frame of reference for the calculations, particularly the lab frame where one proton is at rest. It emphasizes the importance of understanding energy distribution in relativistic collisions. Ultimately, the user resolved their confusion with assistance from the forum.
Olibaba
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Hi, just registered to Physics Forums after doing a lot of lurking...

Anyway, the semester is restarting and my brain is rusty. Please help!

Here is my question:

I am asked to show that a proton colliding with a proton at rest must have energy greater than 5.6 GeV in order to produce a proton antiproton pair, and to do this using relativistic energy/momentum conservation.

Here is where I am at in my thinking.. Please let me know if I am making this too hard for myself, or if I am missing some big obvious detail!

1. In order to produce the proton-antiproton pair, the moving proton must overcome the coulomb barrier of the 'at rest' proton. (This seems trivial.. and I don't think I should include any math to take this into account).

2. Since it is suggested 5.6 GeV is the minimum energy, both proton and antiproton will be at rest after the collision.

So now I wonder where to go. I know the equations

E = K + m_p (setting c=1)
E = sqrt(p^2 + m_p^2)

I take it they both have m_p = 938 MeV (rest energy).

I am confused.. After the collision, the proton-antiproton will have a total energy of 2*938 MeV. Where does that 5.6 GeV go to?
 
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What frame do you want to work the problem in?
 
I would start in the lab frame.
 
Olibaba said:
I would start in the lab frame.

Almost never the right thing to do.
 
Is the flaw of using the lab frame that we aren't seeing the system from the particle's viewpoint?

In such a case, that would mean that using the lab frame in this case would only work as we specify that one of the particles is at rest (and thus its frame coincides with the lab frame)?

Thanks!
 
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(Disclaimer: this is not a HW question. I am self-studying, and this felt like the type of question I've seen in this forum. If there is somewhere better for me to share this doubt, please let me know and I'll transfer it right away.) I am currently reviewing Chapter 7 of Introduction to QM by Griffiths. I have been stuck for an hour or so trying to understand the last paragraph of this proof (pls check the attached file). It claims that we can express Ψ_{γ}(0) as a linear combination of...
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