Abstract
We perturbatively calculate classical radiation in Yang-Mills theory and dilaton gravity, to next-to-leading order in couplings. The radiation is sourced by the scattering of two relativistic massive scalar sources with the dynamical effect taken into account, corresponding to the post-Minkowskian regime in gravity. We show how to arrange the Yang-Mills radiation such that the duality between color and kinematics is manifest, including the three-term Jacobi identity. The search for duality-satisfying expressions exploits an auxiliary bi-adjoint scalar theory as a guide for locality. The double copy is obtained by replacing the color factors in Yang-Mills with kinematic counterparts, following Bern-Carrasco-Johansson construction in S-matrix. On the gravity side, the radiation is directly computed at the third post-Minkowskian order with massive sources. We find perfect agreement between observables in dilaton gravity and the Yang-Mills double copy. This non-trivially generalizes the leading-order rules by Goldberger and Ridgway. For the first time, the kinematic Jacobi identity appears beyond field-theory S-matrix, suggesting that the color-kinematics duality holds more generally. Our results offer a path for simplifying analytical calculations in post-Minkowskian regime.
Highlights
The connection between gravity and YM has gone deeper after the seminal work by Bern, Carrasco, and Johansson (BCJ) [3, 4]
The first two sections contains a review of the worldline formalism used in refs. [30, 31], in a fashion that is readily applicable for higher order calculations
We can first treat the third insertion as an independent third body, with its own initial momentum and color charge, and calculate the current involving three sources
Summary
This section introduces the necessary backgrounds before we go to next-leading-order calculations. The first two sections contains a review of the worldline formalism used in refs. [30, 31], in a fashion that is readily applicable for higher order calculations. The last part is devoted to be a compact review of color-kinematics duality and double copy
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