Difference between coupling constant and strength parameter

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SUMMARY

The discussion clarifies the distinction between the coupling constant g_W and the strength parameter α_W in weak interactions. Specifically, α_W is defined as α_W = g_W² / (4π), indicating that both terms relate to the strength of the interaction but serve different roles in theoretical frameworks. g_W appears in the Lagrangian as the coupling strength between fields at vertices, while α_W is utilized in Feynman diagrams when depicting interactions involving two vertices. Understanding this relationship is crucial for accurate interpretations in particle physics.

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  • Basic grasp of coupling constants and their significance
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Daaavde
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Hello to everyone,

I got a little bit confused between the coupling constant g_W and the strength parameter \alpha_W in the weak interaction. For what I know they should both give an idea of the strength of the interaction but I miss to understand what's the difference between them.
 
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If I understand your quantities well...alpha is called the (running) coupling constant too.
There is no difference between the one or the other...
\alpha_{W}= \frac{g_{W}^{2}}{4 \pi}

The one appears on the Lagrangian as the coupling strength between the fields on vertices.
The other appears in the Feynman diagrams of interactions when you have two vertices.
 
Thank you for the answer!
 

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