## Question about the weak force?

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AlternateGravity
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### Question about the weak force?

Does anyone on this forum know if the gauge bosons for the weak force are self interacting? I mean can a W-Boson emit or absorb another W-Boson to become a Z-Boson or can a Z-Boson emit or absorb a W-Boson to become another W-Boson? Can a W-Boson or Z-Boson exchange a another Z-Boson to change velocity?
Gravitons would be my favorite particle as their existence could prove extra dimensions.

testtubegames
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### Re: Question about the weak force?

It looks like they can, indeed.

See page 10 of this, for instance. Can't say I understand it all - it's been a while since I took Quantum Field Theory, but it looks like there are indeed vertices in Feynman diagrams where Z's and W's interact. It looks like as long as charge, spin, etc are conserved, you're a-okay.

19683
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### Re: Question about the weak force?

Do Z bosons play a major role in nature? If they just stopped existing then what would happen? Or would nothing much change?
Binomial Theorem: ((a+b)^n)= sum k=0->k=n((n!(a^(n-k))(b^k))/(k!(n-k)!))

testtubegames
Posts: 1083
Joined: Mon Nov 19, 2012 7:54 pm

### Re: Question about the weak force?

Big questions like that are always interesting to tease out -- what if there were no more Z bosons?

1) First off, that would mean the math / symmetries of the standard model would break. The way the laws work, you *need* a Z boson (just like we *needed* a Higgs boson, and later found it). So, in some sense, you couldn't just get rid of it.

But that's so unsatisfying!

2) So let's imagine that, however we did it, we managed to destroy the existence of Z bosons forever. There are a lot of particle interactions that the Z boson takes part in, and they'd all be affected. To take a simple example, when two charges repel, there's a photon being exchanged. *BUT* it could also be a Z boson, standing in for a photon. (It has a far lower probability, since they have such a large mass, but it's non-zero). I'm not sure how that would all trickle down, but knowing how fine-tuned the knobs of the universe seem to be -- any small change could have big repercussions.

3) As an even more concrete answer, though, there are some things that *only* a Z boson can do. Classic example: elastic scattering of neutrinos. Neutrinos only interact with the weak force (hence only with W and Z bosons). If a W is involved, since it has charge, some *other* charged particle needs to be involved, too. Perhaps an electron is turning into a W- and an electron neutrino. To have elastic scattering, though, where neutrinos are simply changing direction, otherwise unaffected, you need a Z boson.

So there you go, neutrinos would travel in even straighter lines than they already do That neutrino scattering was actually something I spent time working with as an undergrad. In neutrino detectors you're looking for both charged currents (W is involved) and neutral currents (Z is involved). We had to go through images of events and pick out what was happening in various particle showers. So, what I'm saying is... if there were no Z bosons... that undergrad project would have been easier.

Huh... suddenly I'm on board with this idea.

19683
Posts: 151
Joined: Wed Jun 05, 2013 12:15 pm

### Re: Question about the weak force?

Great, lets try it! Neutrinos aren't that important, right. What's the worst that could happen?  is mad that we broke the standard model, so we should probably put back the Z bosons now.
Binomial Theorem: ((a+b)^n)= sum k=0->k=n((n!(a^(n-k))(b^k))/(k!(n-k)!))