Mass zeros in the one-loop effective actions of QED in 1+1 and 3+1 dimensions
Abstract
It is known that the one-loop effective action of QED2 is a quadratic in the field strength when the fermion mass is zero: all potential higher order contributions beyond second order vanish. For nonzero fermion mass it is shown that this behavior persists for a general class of fields for at least one value of the fermion mass when the external field's flux satisfies 0<|e|<2π. For QED4 the mass-shell renormalized one-loop effective action vanishes for at least one value of the fermion mass for a class of smooth, square integrable background gauge fields provided a plausible zero-mass limit exists.
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