A Lie bracket for the momentum kernel
A Lie bracket for the momentum kernel
We develop new mathematical tools for the study of the double copy and colour-kinematics duality for tree-level scattering amplitudes using the properties of Lie polynomials. We show that the $S$-map that was defined to simplify super-Yang--Mills multiparticle superfields is in fact a new Lie bracket on the dual space of Lie polynomials. We introduce {\it Lie polynomial currents} based on Berends-Giele recursion for biadjoint scalar tree amplitudes that take values in Lie polynomials. Field theory amplitudes are obtained from the Lie polynomial amplitudes by numerators characterized as homomorphisms from the free Lie algebra to kinematic data. Examples are presented for the biadjoint scalar, Yang--Mills theory and the nonlinear sigma model. That these theories satisfy the Bern-Carrasco-Johansson amplitude relations follows from the identities we prove for the Lie polynomial amplitudes and the existence of BCJ numerators. A KLT map from Lie polynomials to their dual is obtained by nesting the S-map Lie bracket; the matrix elements of this map yield a recently proposed `generalized KLT matrix', and this reduces to the usual KLT matrix when its entries are restricted to a basis. Using this, we give an algebraic proof for the cancellation of double poles in the KLT formula for gravity amplitudes. We finish with some remarks on numerators and colour-kinematics duality from this perspective.
hep-th, math.CO
Frost, Hadleigh
9d151ffe-f882-4274-b608-47080640373c
Mafra, Carlos R.
5a40c14f-0ddb-4c0c-9ce5-acabc537cd01
Mason, Lionel
52f6d433-9f93-4b49-9cf6-60e8f691eeb7
Frost, Hadleigh
9d151ffe-f882-4274-b608-47080640373c
Mafra, Carlos R.
5a40c14f-0ddb-4c0c-9ce5-acabc537cd01
Mason, Lionel
52f6d433-9f93-4b49-9cf6-60e8f691eeb7
Frost, Hadleigh, Mafra, Carlos R. and Mason, Lionel
(2020)
A Lie bracket for the momentum kernel.
arXiv.
Abstract
We develop new mathematical tools for the study of the double copy and colour-kinematics duality for tree-level scattering amplitudes using the properties of Lie polynomials. We show that the $S$-map that was defined to simplify super-Yang--Mills multiparticle superfields is in fact a new Lie bracket on the dual space of Lie polynomials. We introduce {\it Lie polynomial currents} based on Berends-Giele recursion for biadjoint scalar tree amplitudes that take values in Lie polynomials. Field theory amplitudes are obtained from the Lie polynomial amplitudes by numerators characterized as homomorphisms from the free Lie algebra to kinematic data. Examples are presented for the biadjoint scalar, Yang--Mills theory and the nonlinear sigma model. That these theories satisfy the Bern-Carrasco-Johansson amplitude relations follows from the identities we prove for the Lie polynomial amplitudes and the existence of BCJ numerators. A KLT map from Lie polynomials to their dual is obtained by nesting the S-map Lie bracket; the matrix elements of this map yield a recently proposed `generalized KLT matrix', and this reduces to the usual KLT matrix when its entries are restricted to a basis. Using this, we give an algebraic proof for the cancellation of double poles in the KLT formula for gravity amplitudes. We finish with some remarks on numerators and colour-kinematics duality from this perspective.
Text
2012.00519
- Accepted Manuscript
Available under License Other.
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Accepted/In Press date: 1 December 2020
e-pub ahead of print date: 1 December 2020
Additional Information:
48 pp
Keywords:
hep-th, math.CO
Identifiers
Local EPrints ID: 445476
URI: http://eprints.soton.ac.uk/id/eprint/445476
PURE UUID: 21b03d19-f2fd-4f6d-8712-ccb1322a8c02
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Date deposited: 10 Dec 2020 17:31
Last modified: 17 Mar 2024 03:33
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Contributors
Author:
Hadleigh Frost
Author:
Lionel Mason
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