Forbidden Reactions and Understanding Particle Interactions

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Homework Help Overview

The discussion revolves around the topic of particle interactions, specifically focusing on the decay of a neutral pion (\(\pi^{0}\)) into a single photon (\(\gamma\)). Participants are exploring the concept of forbidden reactions in particle physics and the underlying principles that dictate these interactions.

Discussion Character

  • Conceptual clarification, Assumption checking, Mixed

Approaches and Questions Raised

  • Participants are questioning the characteristics of photons and the conservation laws that apply to particle decays. There is an exploration of the spin quantum number and its implications for the decay process, particularly why a pion can decay into two photons but not one.

Discussion Status

Some guidance has been offered regarding the conservation of spin quantum numbers, and participants are actively engaging with the concepts. There is an ongoing exploration of the allowed values of total spin for a two-photon system, indicating a productive direction in the discussion.

Contextual Notes

Participants note a lack of detailed information in their reference materials regarding the properties of photons and the specifics of spin in particle interactions, which may be influencing their understanding of the problem.

GrantB
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Homework Statement



Which of the following reactions are forbidden and why?

[itex]\pi^{0}\rightarrow\gamma[/itex]

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 [itex]\gamma[/itex] (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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