# Ambitwistor strings and amplitudes in curved backgrounds

**Authors:** Stefan Nekovar

arXiv: 1812.09080 · 2018-12-24

## TL;DR

This paper explores how ambitwistor strings and the double copy method can be extended to curved spacetime backgrounds, demonstrating their consistency and calculating specific scattering amplitudes in such settings.

## Contribution

It constructs heterotic and type II ambitwistor string models in curved backgrounds, showing their anomaly freedom and physical state conditions, and connects these models to amplitude calculations on plane wave backgrounds.

## Key findings

- Heterotic ambitwistor string is anomaly free if background solves Yang-Mills equations.
- Vertex operators are BRST closed only for on-shell states.
- Models reproduce 3-point amplitudes on sandwich plane waves.

## Abstract

Feynman diagrams have been superseded as the tool of choice for calculating scattering amplitudes. Various other methods are not only more efficient but also explicitly exhibit beautiful structures obscured by Feynman diagrams. This thesis aims to lay some groundwork on how two of these methods, ambitwistor strings and the double copy, can be generalised to scattering in curved backgrounds. In the first part of this thesis, a heterotic ambitwistor string model coupled to a non-abelian background gauge field is constructed. It is shown that after decoupling gravity this model is anomaly free if and only if the background field is a solution to the Yang-Mills equations. A fixed gluon vertex operator for the aforementioned heterotic model as well as a vertex operator encoding graviton, B-field and dilaton for type II ambitwistor strings in a curved background are presented. It is shown that they are BRST closed if and only if they correspond to physical on-shell states. In the second part, sandwich plane waves are considered. It is shown that scattering of gluons and gravitons is well defined on these backgrounds. 3-point amplitudes are calculated using quantum field theory techniques and a double copy relation between gluons on a gauge theory plane wave and gravitons on a gravitational plane wave is proposed. Using the results from the first part of this thesis, it is then shown that curved background heterotic and type II ambitwistor string models correctly reproduce these 3-point amplitudes on sandwich plane waves.

## Full text

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## Figures

1 figure with captions in the complete paper: https://tomesphere.com/paper/1812.09080/full.md

## References

190 references — full list in the complete paper: https://tomesphere.com/paper/1812.09080/full.md

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Source: https://tomesphere.com/paper/1812.09080