# Chiral Splitting and $\mathcal N = 4$ Einstein--Yang--Mills Tree   Amplitudes in 4d

**Authors:** Kai A. Roehrig

arXiv: 1705.09315 · 2017-09-13

## TL;DR

This paper introduces a new world-sheet formula for all tree-level scattering amplitudes in four-dimensional $	ext{N} 	extless= 4$ Einstein-Yang-Mills theory, utilizing a novel chiral splitting of CHY Pfaffians based on spin bundle isomorphisms.

## Contribution

It generalizes previous formulas to include all trace sectors and introduces a new chiral splitting method for CHY Pfaffians in 4d.

## Key findings

- Derived a world-sheet formula for all trace sectors of 4d $	ext{N} 	extless= 4$ Einstein-Yang-Mills amplitudes.
- Established a new chiral splitting of CHY Pfaffians into determinants of positive and negative helicity.
- Proved the splitting formula as a consequence of the spin bundle isomorphism in Minkowski space.

## Abstract

We present a world-sheet formula for all tree level scattering amplitudes, in all trace sectors, of four dimensional $\mathcal{N} \leq 4$ supersymmetric Einstein-Yang-Mills theory, based on the refined scattering equations. This generalizes previously known formulas for all-trace purely bosonic, or supersymmetric single-trace amplitudes. We find this formula by applying a new chiral splitting formula for all CHY Pfaffians in 4d, into two determinants, of positive and negative helicity respectively. The splitting of CHY Pfaffians is shown to be a special case of the splitting of $T\mathbb{M}$ valued fermion correlators on the sphere, which does not require the scattering equations to hold, and is a consequence of the isomorphism $T\mathbb{M} \simeq \mathbb{S}^+ \otimes \mathbb{S}^-$ between the tangent bundle of Minkowski space and the left- and right-handed spin bundles. We present and prove this general splitting formula.

## Full text

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## References

33 references — full list in the complete paper: https://tomesphere.com/paper/1705.09315/full.md

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Source: https://tomesphere.com/paper/1705.09315