Fractional Effective Action at strong electromagnetic fields
Abstract
In 1936, Weisskopf showed that for vanishing electric or magnetic fields the strong-field behavior of the one loop Euler-Heisenberg effective Lagrangian of quantum electro dynamics (QED) is logarithmic. Here we generalize this result for different limits of the Lorentz invariants \(E2-B2\) and \(B·E\). The logarithmic dependence can be interpreted as a lowest-order manifestation of an anomalous power behavior of the effective Lagrangian of QED, with critical exponents \(δ=e2/(12π)\) for spinor QED, and \(δS=δ/4\) for scalar QED.
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