U(1) Gauge Symmetry: What Informs Its Choice?

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SUMMARY

The discussion centers on the U(1) gauge symmetry as it applies to Quantum Electrodynamics (QED) and its implications for the wavefunction and covariant derivatives. The participant seeks clarity on the significance of local symmetry in the wavefunction and the principles that validate the description of electrons and photons within this framework. The inquiry emphasizes the foundational role of gauge invariance in formulating physical theories and the necessity of understanding the underlying principles that dictate symmetry choices in theoretical physics.

PREREQUISITES
  • Understanding of Quantum Electrodynamics (QED)
  • Familiarity with gauge theory concepts
  • Knowledge of Lagrangian mechanics
  • Basic principles of symmetry in physics
NEXT STEPS
  • Research the role of gauge invariance in quantum field theories
  • Study the implications of local vs. global symmetries in physics
  • Explore the mathematical formulation of covariant derivatives in gauge theories
  • Investigate the historical context and development of U(1) symmetry in particle physics
USEFUL FOR

The discussion is beneficial for theoretical physicists, students of quantum mechanics, and researchers interested in the foundations of gauge theories and their applications in particle physics.

dfttheory
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So, I have a basic/general question here. I understand that, for example, the QED Langrangian has U(1) gauge symmetry. I also understand that this means (when you have written the Lagrangian with the covariant derivative) that if you transform the wavefunction (\psi \rightarrow e^{i \theta (x)} \psi) and the covariant derivative, this Lagrangian remains invariant.

What I don't understand is this: what does it mean for the wavefunction to have this local symmetry? How do we know that electrons / photons are described by this theory? What principal of nature says that the wavefunction has this symmetry?

I know this is three questions, but I am just trying to get a sense of what informs the choice of symmetry in these theories before I continue transforming and writing gauge invariant theories.

Thank you for any attention you may pay this question!
 
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I just realized that the discussions related to this may contain some of what I am looking for. I would be interested in any additional discussion about this. Thanks!
 

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