Weak force and axial vector coupling

In summary, the poster is asking about the decay of the pi-meson and how it relates to the weak force vertex. The reply states that only the term with gamma_5 in it contributes to the weak interaction, and explains how this relates to free particles versus bound states. The poster also asks for clarification on the physical and mathematical implications of this.
  • #1
a dull boy
40
1
Hi physics forum,

I have been reading David Griffith's book "intro to elementary particles" and he
describes the decay of the pi-meson as "pure axial vector"

Can someone tell me what this means, in terms of the weak force vertex consisting of
this factor

γu(1-γ5)

Thanks, Mark
 
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  • #2
Only the term with the gamma_5 in it contributes.
 
  • #3
Thanks for the reply. I'll follow up 1) what does that mean physically, for example, do only certain particle types engage in pure axial coupling? 2) can you say a little as how
the math would work (how can the vector part of V-A not contribute, since the axial
part is multiplied by the vector (γuγ5

I am a novice in this, so it may not be a good question! -Mark
 
  • #4
db, The weak interaction is an interaction between weak currents, JμJμ. For the lepton pair the particles are free, and Jμ is of the V-A form.

However the quarks that make up the pion are not free, they are in a bound pseudoscalar state. You can combine their wavefunction with the 4-momentum kμ to construct an axial vector current, but there is no way to make a vector current.
 

1. What is the weak force and how does it differ from other fundamental forces?

The weak force is one of the four fundamental forces in nature, along with gravity, electromagnetism, and the strong nuclear force. It is responsible for radioactive decay and plays a crucial role in nuclear reactions. Unlike the other forces, the weak force is short-range and only acts on a subatomic level.

2. What is axial vector coupling and how does it impact the weak force?

Axial vector coupling is a type of interaction between subatomic particles that occurs within the weak force. It describes the coupling of a vector particle, such as a photon, with an axial vector particle, such as a Z boson. This interaction affects the strength and direction of the weak force, as well as the rate of decay of particles.

3. How does the weak force contribute to the structure of matter?

The weak force is responsible for the conversion of one type of subatomic particle into another, known as particle decay. This process plays a crucial role in the structure and stability of matter, as it allows for the creation of new particles and the breakdown of unstable ones. Without the weak force, the universe would look drastically different.

4. What are the implications of the weak force and axial vector coupling for particle physics?

The study of the weak force and axial vector coupling has led to significant advancements in our understanding of subatomic particles and their interactions. This knowledge has also played a crucial role in the development of the Standard Model of particle physics, which describes the fundamental particles and forces in the universe.

5. How is the weak force and axial vector coupling being studied and tested?

Scientists use a variety of experimental techniques, such as particle accelerators and detectors, to study the weak force and axial vector coupling. These experiments help to verify the predictions of the Standard Model and search for new particles and interactions that may challenge our current understanding of the weak force and its mechanisms.

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