I have read these questions:
Virtual Photon transmission speed of a Static Electric Field?
where John Rennie's comments say:
Virtual photons can travel faster than light
Is there a "difference" between photons that act as virtual particles and photons that act as the quanta of EM radiation?
where D.W.'s and Neuneck's comments say:
Re (1) - Do you really mean "...immediately caught by another particle"? Wouldn't it need to still move at the speed of light? – D. W. Jun 5 '14 at 18:02 1 upvote flag No. Since they are not required to have energy and momentum on the mass shell (see rob's answer), other limits do not apply either. One naive way of picturing this is that the interaction between two electrons via a photon takes place as a small lightning bolt, connecting the two electrons for an instant, allowing momentum to be exchanged. After the lightning bolt disappears the electrons change their direction and are oblivious of each other again. – Neuneck
Speed of electromagnetic interactions
How fast does the electrostatic force travel?
And it made me curious.
We know that virtual photons are off mass shell, and they do not have to obey some physical rules.
But still they are the mediators of EM interactions, and the speed of the static fields (the interaction between static fields) seems to be instantaneous based on the answers.
We know that there are instantaneous processes as per QM, like the absorption/emission of real photons, and the electron's movement to a higher energy level as per QM by absorbing a real photon.
Now in the case of an electron moving to a higher energy level, that is explained by the probability distribution of the wavefunction, where the wavefunction describes the probability to find the electron at a certain energy level, and that wavefunction changes instantaneously.
I do not know if the virtual photons exchange is the same, described by the wavefunction and it can change instantaneously.
Are virtual particles traveling faster then c mathematically (because of the wavefunction's instantaneous change)?
If they are just a mathematical description of the interactions (that we cannot explain in a classical view), then how does the math count for the instantaneous interactions speed? Is it the same as per QM, the instantaneous processes like photon absorption/emission, energy level movement of electron?