In a hadronic interaction, \(\pi^0\)'s are produced with different momenta, and they immediately decay into two photons with an opening angle \(\theta\) between them. Assuming that all these decays occur in one plane, which one of the following figures depicts the behaviour of \(\theta\) as a function of the \(\pi^0\) momentum \(p\)?
In a hadronic interaction, \(\pi^0\)'s are produced with different momenta, and they immediately decay into two photons with an opening angle \(\theta\) between them. Assuming that all these decays occur in one plane, which one of the following figures depicts the behaviour of \(\theta\) as a function of the \(\pi^0\) momentum \(p\)?
Show Hint
A
B
C
D
The Correct Option is A
Solution and Explanation
- As the momentum increases, the opening angle decreases due to the relativistic motion of the photons. The correct representation of this relationship is given by option (A), where the opening angle decreases as the momentum increases.
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