Lie Polynomials and a Twistorial Correspondence for Amplitudes

Abstract

We review Lie polynomials as a mathematical framework that underpins the structure of the so-called double copy relationship between gauge and gravity theories (and a network of other theories besides). We explain how Lie polynomials naturally arise in the geometry and cohomology of M0,n, the moduli space of n points on the Riemann sphere up to Mobi\"us transformation. We introduce a twistorial correspondence between the cotangent bundle T*DM0,n, the bundle of forms with logarithmic singularities on the divisor D as the twistor space, and Kn the space of momentum invariants of n massless particles subject to momentum conservation as the analogue of space-time. This gives a natural framework for Cachazo He and Yuan (CHY) and ambitwistor-string formulae for scattering amplitudes of gauge and gravity theories as being the corresponding Penrose transform. In particular we show that it gives a natural correspondence between CHY half-integrands and scattering forms, certain n-3-forms on Kn, introduced by Arkani-Hamed, Bai, He and Yan (ABHY). We also give a generalization and more invariant description of the associahedral n-3-planes in Kn introduced by ABHY.