Integrands of less-supersymmetric Yang-Mills at one loop

Jacob L. Bourjaily; Enrico Herrmann; Cameron Langer; Kokkimidis Patatoukos; Jaroslav Trnka; Minshan Zheng

doi:10.1007/JHEP03(2022)126

Integrands of less-supersymmetric Yang-Mills at one loop

Jacob L. Bourjaily
, Enrico Herrmann
, Cameron Langer
, Kokkimidis Patatoukos
, Jaroslav Trnka
, Minshan Zheng

Physics

Research output: Contribution to journal › Article › peer-review

Abstract

We construct a prescriptive, bubble power-counting basis of one-loop integrands suitable for representing amplitude integrands in less-supersymmetric (1 ≤N≤ 4) Yang-Mills theory. With the exception of massless bubbles, all integrands have unambiguous, leading singularities as coefficients defined in field theory; for the massless bubbles on external legs, we find two natural choices which lead to different integrands that highlight distinct aspects of field theory. For concreteness, we give the all-multiplicity integrands for MHV amplitudes, and the split-helicity amplitude integrand for six-particle NMHV. The basis we construct is mostly pure and is divided into to separately UV- and IR-finite sectors of fixed transcendental weight, resulting in UV- and IR-finite ratio functions of n-particle helicity amplitudes.

Original language	English (US)
Article number	126
Journal	Journal of High Energy Physics
Volume	2022
Issue number	3
DOIs	https://doi.org/10.1007/JHEP03(2022)126
State	Published - Mar 2022

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics

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10.1007/JHEP03(2022)126

Cite this

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title = "Integrands of less-supersymmetric Yang-Mills at one loop",

abstract = "We construct a prescriptive, bubble power-counting basis of one-loop integrands suitable for representing amplitude integrands in less-supersymmetric (1 ≤N≤ 4) Yang-Mills theory. With the exception of massless bubbles, all integrands have unambiguous, leading singularities as coefficients defined in field theory; for the massless bubbles on external legs, we find two natural choices which lead to different integrands that highlight distinct aspects of field theory. For concreteness, we give the all-multiplicity integrands for MHV amplitudes, and the split-helicity amplitude integrand for six-particle NMHV. The basis we construct is mostly pure and is divided into to separately UV- and IR-finite sectors of fixed transcendental weight, resulting in UV- and IR-finite ratio functions of n-particle helicity amplitudes.",

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T1 - Integrands of less-supersymmetric Yang-Mills at one loop

AU - Bourjaily, Jacob L.

AU - Herrmann, Enrico

AU - Langer, Cameron

AU - Patatoukos, Kokkimidis

AU - Trnka, Jaroslav

AU - Zheng, Minshan

PY - 2022/3

Y1 - 2022/3

N2 - We construct a prescriptive, bubble power-counting basis of one-loop integrands suitable for representing amplitude integrands in less-supersymmetric (1 ≤N≤ 4) Yang-Mills theory. With the exception of massless bubbles, all integrands have unambiguous, leading singularities as coefficients defined in field theory; for the massless bubbles on external legs, we find two natural choices which lead to different integrands that highlight distinct aspects of field theory. For concreteness, we give the all-multiplicity integrands for MHV amplitudes, and the split-helicity amplitude integrand for six-particle NMHV. The basis we construct is mostly pure and is divided into to separately UV- and IR-finite sectors of fixed transcendental weight, resulting in UV- and IR-finite ratio functions of n-particle helicity amplitudes.

AB - We construct a prescriptive, bubble power-counting basis of one-loop integrands suitable for representing amplitude integrands in less-supersymmetric (1 ≤N≤ 4) Yang-Mills theory. With the exception of massless bubbles, all integrands have unambiguous, leading singularities as coefficients defined in field theory; for the massless bubbles on external legs, we find two natural choices which lead to different integrands that highlight distinct aspects of field theory. For concreteness, we give the all-multiplicity integrands for MHV amplitudes, and the split-helicity amplitude integrand for six-particle NMHV. The basis we construct is mostly pure and is divided into to separately UV- and IR-finite sectors of fixed transcendental weight, resulting in UV- and IR-finite ratio functions of n-particle helicity amplitudes.

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DO - 10.1007/JHEP03(2022)126

M3 - Article

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VL - 2022

JO - Journal of High Energy Physics

JF - Journal of High Energy Physics

IS - 3

M1 - 126

ER -

Integrands of less-supersymmetric Yang-Mills at one loop

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