Notes on Magnetic Monopoles from Partial Electromagnetic Duality

Abstract

In this work, we propose a novel partial electromagnetic duality and construct its consistent realization using an extended gauge group U(1)q(1)d over a localized space region, where U(1)q is the conventional gauge group of QED and U(1)d serves as its dual gauge group. In this framework, the "electric" charge associated with U(1)d plays the role of the magnetic (monopole) charge in QED U(1)q, whereas the electric charge of U(1)q is reinterpreted as the "magnetic" charge of U(1)d. Importantly, our theory preserves the exact Bianchi identity, as it provides a genuinely singularity-free and stringless formulation that involves only electric charges under each U(1) gauge group. We show that the two gauge sectors, U(1)q and U(1)d, exhibit a partial duality within a localized region of space. Based on this consistent formulation, we present the first fully gauge-invariant computation of scattering amplitudes and cross sections for monopole production processes, including e-e+→* and e-e+→.