Decay of Roe Meson: Conservation Laws Explained

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The discussion centers on the decay of the rho meson and the conservation laws that govern particle interactions. The allowed decays of the rho meson into pions are confirmed, while the decay into two neutral pions is deemed forbidden due to a violation of conservation laws, specifically parity. Participants suggest that the spin and quark configurations of the rho meson, which differ from those of pions, play a crucial role in this restriction. The conversation highlights the complexities of understanding parity and angular momentum in particle physics. Overall, the rho meson's decay behavior illustrates fundamental principles of conservation in quantum mechanics.
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I just started a class in particle physics this semester, and I really need help on one of our first homework problems. We are supposed to show that while the following decays are allowed:

roe(+) --> pi(0)pi(+)
roe(-) --> pi(0)pi(-)
roe(0) --> pi(+)pi(-)

the following decay is not allowed:

roe(0) --> pi(0)pi(0)

I am pretty sure the reason is that it violates a conservation law, but I don't know which one. We have barely touched on what quantities are conserved in lecture. I can see that charge is conserved in all cases, so no problem there.

We are also told that the roe meson is a spin 1 particle, so I think that should play a role. However, the part of quantum mechanics that dealt with angular momentum and spin was a bit treacherous for me. Any help is greatly appreciated.
 
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This all sounds pretty fishy to me... Oh perhaps you mean \rho that is rho!

You might benifit by reading This thread.
 
Fantastic! I am already familiar with LaTex.
 
For anyone reading this thread, that link was just about using LaTex for math symbols...I still REALLY need help with this problem!

:biggrin:
 
I'm not an expert in particle physics, but have you checked

1.) spin
2.) parity

I think rho mesons have both their quark and antiquark aligned, whereas pions have them antiparallel so one rho can't make two pions.
 
From what I have deduced, I think the culprit is parity. Could you explain what you know about parity? I have always found it a mysterious concept.
 

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