Journal of High Energy Physics (Apr 2021)

Electromagnetic duality and D3-brane scattering amplitudes beyond leading order

  • Henriette Elvang,
  • Marios Hadjiantonis,
  • Callum R. T. Jones,
  • Shruti Paranjape

DOI
https://doi.org/10.1007/JHEP04(2021)173
Journal volume & issue
Vol. 2021, no. 4
pp. 1 – 60

Abstract

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Abstract We use on-shell methods to study the non-supersymmetric and supersymmetric low-energy S-matrix on a probe D3-brane, including both the 1-loop contributions of massless states as well as the effects of higher-derivative operators. Our results include: (1) A derivation of the duality invariance of Born-Infeld electrodynamics as the dimensional oxidation of the group of spatial rotations transverse to a probe M2-brane; this is done using a novel implementation of subtracted on-shell recursion. (2) The first explicit loop-level BCJ double-copy in a non-gravitational model, namely the calculation of the 4-point self-dual amplitude of non-supersymmetric Born-Infeld. (3) From previous results for n-point self-dual 1-loop BI amplitudes and the conjectured dimension-shifting relations in Yang-Mills, we obtain an explicit all-multiplicity, at all orders in E, expression for the 1-loop integrand of the MHV sector of N $$ \mathcal{N} $$ = 4 DBI. (4) For all n > 4, the explicitly integrated duality-violating 1-loop amplitudes (self-dual and next-to-self-dual in pure BI as well as MHV in N $$ \mathcal{N} $$ = 4 DBI) are shown to be removable at O ϵ 0 $$ \mathcal{O}\left({\upepsilon}^0\right) $$ by adding finite local counterterms; we propose that this may be true more generally at 1-loop order. (5) We find that in non-supersymmetric Born-Infeld, not all finite local counterterms needed to restore electromagnetic duality can be constructed using the double-copy with higher-derivative corrections, suggesting a fundamental tension between electromagnetic duality and color-kinematics duality at loop-level. Finally we comment on oxidation of duality symmetries in supergravity and the parallels it has to the M2-brane to D3-brane oxidation demonstrated in this paper.

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