# All-Multiplicity One-Loop Amplitudes in Born-Infeld Electrodynamics from   Generalized Unitarity

**Authors:** Henriette Elvang, Marios Hadjiantonis, Callum R. T. Jones, Shruti, Paranjape

arXiv: 1906.05321 · 2020-03-18

## TL;DR

This paper computes explicit one-loop rational amplitudes in non-supersymmetric Born-Infeld electrodynamics, revealing new insights into quantum corrections and electromagnetic duality in this nonlinear theory.

## Contribution

It provides the first explicit all-multiplicity one-loop amplitude expressions in Born-Infeld theory using novel unitarity and double-copy techniques.

## Key findings

- Explicit rational one-loop amplitudes for self-dual and next-to-self-dual sectors.
- Demonstrates a supersymmetric decomposition and dimensionally reduced approaches.
- Discusses implications for electromagnetic duality at the quantum level.

## Abstract

We initiate a study of non-supersymmetric Born-Infeld electrodynamics in 4d at the quantum level. Explicit all-multiplicity expressions are calculated for the purely rational one-loop amplitudes in the self-dual ($++\ldots+$) and next-to-self-dual ($-+\ldots+$) helicity sectors. Using a supersymmetric decomposition, $d$-dimensional unitarity cuts of the integrand factorize into tree-amplitudes in a 4d model of Born-Infeld photons coupled to a massive complex scalar. The two-scalar tree-amplitudes needed to construct the Born-Infeld integrand are computed using two complimentary approaches: (1) as a double-copy of Yang-Mills coupled to a massive adjoint scalar with a dimensionally reduced form of Chiral Perturbation Theory, and (2) by imposing consistency with low-energy theorems under a reduction from 4d to 3d and T-duality. The Born-Infeld integrand is integrated in $d=4-2\epsilon$ dimensions at order $\mathcal{O}(\epsilon^0)$ using the dimension-shifting formalism. We comment on the implications for electromagnetic duality in quantum Born-Infeld theory.

## Full text

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## Figures

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## References

48 references — full list in the complete paper: https://tomesphere.com/paper/1906.05321/full.md

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Source: https://tomesphere.com/paper/1906.05321