Charge of the Vacuum in QED: Meaning & Implications

In summary, when calculating operators in QED, we obtain infinite terms that can be considered irrelevant due to renormalization problems. However, when computing the charge operator, we still get an infinite term, which means the naive way of constructing operators is ill-defined and products must be Wick Ordered.
  • #1
Malamala
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Hello! When calculating the Hamiltonian operator in QED, in terms of creation and annihilation operators, we obtain an infinite term, which is considered irrelevant for most part (beside some renormalization problems) because we usually care about the difference in energies, so that would be just a shift. However, when computing the charge operator, coming from the Noether current, you still get an infinite term. What is the meaning of that? One can't really assume that the vacuum has an infinite charge. Thank you!
 
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  • #2
Malamala said:
Hello! When calculating the Hamiltonian operator in QED, in terms of creation and annihilation operators, we obtain an infinite term, which is considered irrelevant for most part (beside some renormalization problems) because we usually care about the difference in energies, so that would be just a shift. However, when computing the charge operator, coming from the Noether current, you still get an infinite term. What is the meaning of that? One can't really assume that the vacuum has an infinite charge. Thank you!
It just means the naive way of constructing the such operators is ill-defined. You can't multiple quantum fields like classical fields. All products need to be Wick Ordered.
 

What is the charge of the vacuum in QED?

The charge of the vacuum in QED, or quantum electrodynamics, is zero. This means that the vacuum has no net electric charge.

What does the charge of the vacuum in QED mean?

The charge of the vacuum in QED means that the vacuum is electrically neutral, despite the presence of virtual particles that constantly pop in and out of existence.

How is the charge of the vacuum in QED calculated?

The charge of the vacuum in QED is calculated using mathematical equations and theoretical models. It is a result of the cancellation of positive and negative charges from virtual particles.

What are the implications of the charge of the vacuum in QED?

The implications of the charge of the vacuum in QED are significant in understanding the behavior of particles and fields in the quantum world. It also plays a crucial role in the development of theories and models in particle physics.

Can the charge of the vacuum in QED be observed or measured?

No, the charge of the vacuum in QED cannot be directly observed or measured. However, its effects can be observed through experiments and calculations, leading to a better understanding of the quantum world.

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