Asymptotic symmetries and charges at null infinity: from low to high spins

Weinberg's celebrated factorisation theorem holds for soft quanta of arbitrary integer spin. The same result, for spin one and two, has been rederived assuming that the infinite-dimensional asymptotic symmetry group of Maxwell's equations and of asymptotically flat spaces leave the S-matrix invariant. For higher spins, on the other hand, no such infinite-dimensional asymptotic symmetries were known and, correspondingly, no a priori derivation of Weinberg's theorem could be conjectured. In this contribution we review the identification of higher-spin supertranslations and superrotations in \(D=4\) as well as their connection to Weinberg's result. While the procedure we follow can be shown to be consistent in any \(D\), no infinite-dimensional enhancement of the asymptotic symmetry group emerges from it in \(D>4\), thus leaving a number of questions unanswered.