Born-Infeld with Higher Derivatives

TL;DR

This paper introduces new self-dual non-linear electromagnetism models with higher derivatives, providing a recursive method to construct them and exploring their implications for string theory corrections and supergravity UV properties.

Contribution

It develops a recursive algorithm to generate all higher-order terms ensuring self-duality in non-linear electromagnetism models with derivatives.

Findings

Constructed a self-dual completion of the $ ext{( extbackslash partial F)}^{4}$ correction.

Provided a recursive method for higher derivative terms in U(1) duality models.

Discussed implications for UV finiteness of ${ m extbackslash cal N}=8$ supergravity.

Abstract

We present new models of non-linear electromagnetism which satisfy the Noether-Gaillard-Zumino current conservation and are, therefore, self-dual. The new models differ from the Born-Infeld-type models in that they deform the Maxwell theory starting with terms like $\lambda (\partial F)^{4}$. We provide a recursive algorithm to find all higher order terms in the action of the form $\lambda^{n} \partial ^{4n} F^{2n+2} $, which are necessary for the U(1) duality current conservation. We use one of these models to find a self-dual completion of the $\lambda (\partial F)^{4}$ correction to the open string action. We discuss the implication of these findings for the issue of UV finiteness of ${\cal N}=8$ supergravity.