A note on asymptotic symmetries and soft-photon theorem

Abstract

Abstract: We use the asymptotic data at conformal null-infinity [InlineMediaObject not available: see fulltext.] to formulate Weinberg’s soft-photon theorem for Abelian gauge theories with massless charged particles. We show that the angle-dependent gauge transformations at [InlineMediaObject not available: see fulltext.] are not merely a gauge redundancy, instead they are genuine symmetries of the radiative phase space. In the presence of these symmetries, Poisson bracket between gauge potentials is not well-defined. This does not pose an obstacle for the quantization of the radiative phase space, which proceeds by treating the conjugate electric field as the fundamental variable. Denoting by I+ and I- as the group of gauge transformations at [InlineMediaObject not available: see fulltext.] and [InlineMediaObject not available: see fulltext.] respectively, Strominger has shown that a certain diagonal subgroup (Formula presented.) is the symmetry of the S-matrix and Weinberg’s soft-photon theorem is the corresponding Ward identity. We give a systematic derivation of this result for Abelian gauge theories with massless charged particles. Our derivation is a slight generalization of the existing derivations since it is applicable even when the bulk spacetime is not exactly flat, but is only “almost” Minkowskian.