The Feynman Diagrams of Quantum Electrodynamics

In summary, The conversation discusses questions about drawing Feynman diagrams for particle physics, specifically addressing when to draw gauge bosons vertically or horizontally and whether a mediator photon can always be replaced by a Z boson. The answers to these questions depend on the specific physical situation and there are some exceptions, such as interactions involving neutrinos.
  • #1
kokolovehuh
23
0
Hi all,
I'm just getting started on particle physics and I have a few foolish :shy: questions about drawing feynman diagram.
First, when do we draw the gauge bosons(such as W) vertically rather than horizontally through time?
Second, can we always replace mediator photon by Z boson? Does that represent real processes, real or virtual whatsoever?

Thank you so much

Regards

Owen
 
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  • #2
kokolovehuh said:
First, when do we draw the gauge bosons(such as W) vertically rather than horizontally through time?
This is completely dependent on the process! In general it just depends on which diagrams you can draw corresponding to the relevant physical situation. To take a concrete example, the first order contributions to Bhabha scattering contains both.

Second, can we always replace mediator photon by Z boson? Does that represent real processes, real or virtual whatsoever?

In general yes, and try to think about why we can make that specific substitution as opposed to any other and also why this diagram is typically neglected.
 
  • #3
Thanks alot! It really helps
 
  • #4
Nabeshin said:
In general yes, and try to think about why we can make that specific substitution as opposed to any other and also why this diagram is typically neglected.

Note, though, that the reverse is not true. There is at least one type of situation in which a Z cannot be replaced by photon - interactions involving neutrinos.
 

Related to The Feynman Diagrams of Quantum Electrodynamics

What is a Feynman Diagram?

A Feynman diagram is a visual representation of the interactions between elementary particles, as described by the theory of quantum electrodynamics (QED). It was developed by physicist Richard Feynman and is used to calculate the probability of various particle interactions.

How do Feynman Diagrams work?

Feynman diagrams use lines to represent particles and vertices to represent interactions between particles. The diagrams also include arrows to indicate the direction of the particles' movements. By following these diagrams, physicists can calculate the probability of particle interactions.

What are the benefits of using Feynman Diagrams?

Feynman diagrams provide a visual representation of complex particle interactions, making it easier for scientists to understand and calculate these interactions. They also allow for the prediction of new particle interactions, which has led to many discoveries in particle physics.

Do Feynman Diagrams have limitations?

While Feynman diagrams are a useful tool in particle physics, they have limitations. For example, they only represent interactions between elementary particles and do not take into account the effects of gravity. They also do not provide a complete understanding of the underlying physics and are only one tool in a larger theoretical framework.

How are Feynman Diagrams used in research?

Feynman diagrams are used extensively in particle physics research, especially in experiments involving high energy particle collisions. They are also used to make predictions about new particles and interactions, which can then be tested through experiments. Additionally, Feynman diagrams have been used in other fields, such as condensed matter physics and quantum computing.

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