Forbidden Reactions and Understanding Particle Interactions

GrantB
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Homework Statement



Which of the following reactions are forbidden and why?

\pi^{0}\rightarrow\gamma

Homework Equations



None?

The Attempt at a Solution



I'm pretty sure that the decay doesn't occur (it's forbidden) but I don't know why. I know that it decays most of the time into two gammas.

I think the problem is that I don't understand what characteristics \gamma (photon) has. As in, when I do other problems like this I look at the quark content and the flavors, compare Strangeness and Lepton numbers etc etc.

Thanks!
 
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You need to consider conservation of the spin quantum number.
 
So if the pion has s=0 but gamma has s=1, why does the pion decay to two gammas but not to one?
 
GrantB said:
So if the pion has s=0 but gamma has s=1, why does the pion decay to two gammas but not to one?

What are the allowed values of total spin for a two photon system?
 
Okay I looked it up, and found that they combine so that the spin projection cancels and are spin-0.

Sorry I had to ask some menial stuff from you, my book doesn't spend any time going into detail about these things. There was no mention of the photons :[

Thanks for the help.
 

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