How Does Gauge Symmetry Allow Solutions to the Lorentz Gauge Condition?

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SUMMARY

The discussion focuses on the implications of gauge symmetry in classical field theory, specifically regarding the Lorentz gauge condition (∂μAμ = 0) for the 4-potential Aμ. It is established that by adding the gradient of a smooth function f to the 4-potential, one can derive a new potential A'μ that satisfies the Lorentz gauge condition. The condition for the function f is crucial, as it must be chosen appropriately to ensure that A'μ meets the gauge requirement. This principle is commonly addressed in classical field theory textbooks.

PREREQUISITES
  • Understanding of gauge symmetry in classical field theory
  • Familiarity with the 4-vector potential Aμ
  • Knowledge of the Lorentz gauge condition (∂μAμ = 0)
  • Basic concepts of smooth functions and gradients
NEXT STEPS
  • Study the derivation of the Lorentz gauge condition in classical electrodynamics
  • Explore the mathematical properties of smooth functions and their gradients
  • Learn about gauge transformations and their physical implications
  • Investigate the role of boundary conditions in field theory solutions
USEFUL FOR

This discussion is beneficial for students and researchers in theoretical physics, particularly those studying classical field theory, electromagnetism, and gauge theories.

QuasarBoy543298
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hi, I'm currently taking a classical field theory class (electromagnetism in the language of tensors and actions and etc) and we have just encountered the gauge symmetry, that is for the 4 vector potential we can add a gradient of some smooth function and get the same physics (if we take Aμ → Aμ + ∂μf the actions stays the same, except some irrelevant constant).
now after that long preview, my question is - how can we conclude from that freedom that we can find a solution for the field A, with any boundary conditions, that satisfies the Lorentz gauge ( ∂μAμ = 0)?
 
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That is done on most textbooks. It is the Lorenz gauge.
 
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saar321412 said:
how can we conclude from that freedom that we can find a solution for the field A, with any boundary conditions, that satisfies the Lorentz gauge ( ∂μAμ = 0)?
Assume that you have a 4-potential ##A_\mu## that does not satisfy the Lorenz gauge condition and write down a new 4-potential ##A'_\mu = A_\mu + \partial_\mu f##. What is the condition on ##f## in order for ##A'_\mu## to satisfy the Lorenz gauge condition? Can you find such a function?
 
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