2013
DOI: 10.1007/jhep12(2013)049
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Hexagon functions and the three-loop remainder function

Abstract: We present the three-loop remainder function, which describes the scattering of six gluons in the maximally-helicity-violating configuration in planar N = 4 superYang-Mills theory, as a function of the three dual conformal cross ratios. The result can be expressed in terms of multiple Goncharov polylogarithms. We also employ a more restricted class of hexagon functions which have the correct branch cuts and certain other restrictions on their symbols. We classify all the hexagon functions through transcendenta… Show more

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Cited by 165 publications
(416 citation statements)
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References 146 publications
(478 reference statements)
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“…In this paper we will follow an alternative approach, the hexagon function bootstrap [26][27][28][29][30]. The philosophy of this program is to bypass integrands altogether and focus on infrared-finite quantities from the very beginning.…”
Section: Jhep10(2014)065mentioning
confidence: 99%
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“…In this paper we will follow an alternative approach, the hexagon function bootstrap [26][27][28][29][30]. The philosophy of this program is to bypass integrands altogether and focus on infrared-finite quantities from the very beginning.…”
Section: Jhep10(2014)065mentioning
confidence: 99%
“…Further perspectives on multi-Regge factorization have been provided by Caron-Huot [55]. The factorization limit has a logarithmic ordering, which allows for the efficient recycling of lower-loop information to higher loops [28,29,56,57]. The recycling is aided by the recognition [56] that in the six-point case the functions relevant for the multi-Regge limit are single-valued harmonic polylogarithms (SVHPLs) [58].…”
Section: Jhep10(2014)065mentioning
confidence: 99%
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