Iterated amplitudes in the high-energy limit

We consider the high-energy limits of the colour ordered four-, fiveand sixgluon MHV amplitudes of the maximally supersymmetric QCD in the multi-Regge kinematics where all the gluons are strongly ordered in rapidity. We show that various building blocks occurring in the Regge factorisation (the Regge trajectory, the coefficient functions and the Lipatov vertex) satisfy an iterative structure very similar to the Bern-DixonSmirnov (BDS) ansatz. This iterative structure, combined with the universality of the building blocks, enables us to show that any twoand three-loop amplitude in multi-Regge kinematics is guaranteed to satisfy the BDS ansatz. We also consider slightly more general kinematics where the strong rapidity ordering applies to all the gluons except the two with either the largest or smallest rapidities, and we derive the iterative formula for the associated coefficient function. We show that in this kinematic limit the BDS ansatz is also satisfied. Finally, we argue that only for more general kinematics e.g. with three gluons having similar rapidities, or where the two central gluons have similar rapidities can a disagreement with the BDS ansatz arise.