Decoupling of Photon Propagator in Compact QED

Abstract

In compact QED2+1 quantum monopole fluctuations induce confinement by expelling electric flux in a dual Meissner effect. Guided by Landau-Ginzburg theory, one might guess that the inverse London penetration depth λ-1---the only physical mass scale---equals the photon propagator mass pole Mγ. I show this is not true. Indeed, in the Villain approximation the monopole part of the partition function factorizes from the photon part, whose dynamical variables are Dirac strings. Since Dirac strings are gauge-variant structures, I conclude that Mγ is physically irrelevant: it is not a blood relative of λ or any other quantity in the gauge-invariant sector. This result is confirmed by numerical simulations in the full theory, where Mγ is not sensitive to monopole prohibition but essentially vanishes if Dirac strings are prohibited.

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