Scattering Amplitudes in the Yang-Mills sector of Quantum Chromodynamics
Abstract: We derive a new Minkowski space action for the pure gluonic sector of QCD that implements new interaction vertices local in the light-cone time with at least four legs and fixed helicities - the lowest vertex is the four-point MHV (Maximally Helicity Violating), higher point vertices include $\mathrm{N}k \mathrm{MHV}$, where 1 $\leqslant$ k $\leqslant $ n-4 and n is the number of external legs. The abscense of triple point interaction vertices makes it efficient in calculating higher multiplicity pure gluonic scattering amplitudes. This formulation is obtained via a canonical transformation of the light-cone Yang-Mills action, with the field transformations based on Wilson line functionals. At the quantum level, the action can only provide cut-constructible parts of amplitudes in 4D. In order to remedy that, we constructed the one-loop effective action starting with the Yang-Mills theory, which explicitly provides the missing contributions. This work provides a new field-theory action-based method to efficiently calculate higher multiplicity pure gluonic scattering amplitudes up to one loop.
Paper Prompts
Sign up for free to create and run prompts on this paper using GPT-5.
Top Community Prompts
Collections
Sign up for free to add this paper to one or more collections.