Vasily Sotnikov scite author profile

We present the analytic form of all leading-color two-loop five-parton helicity amplitudes in QCD. The results are analytically reconstructed from exact numerical evaluations over finite fields. Combining a judicious choice of variables with a new approach to the treatment of particle states in D dimensions for the numerical evaluation of amplitudes, we obtain the analytic expressions with a modest computational effort. Their systematic simplification using multivariate partial-fraction decomposition leads to a particularly compact form. Our results provide all two-loop amplitudes required for the calculation of next-tonext-to-leading order QCD corrections to the production of three jets at hadron colliders in the leading-color approximation.

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Pentagon functions for scattering of five massless particles

Chicherin

Sotnikov

2020

J. High Energ. Phys.

103

118

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We complete the analytic calculation of the full set of two-loop Feynman integrals required for computation of massless five-particle scattering amplitudes. We employ the method of canonical differential equations to construct a minimal basis set of transcendental functions, pentagon functions, which is sufficient to express all planar and nonplanar massless five-point two-loop Feynman integrals in the whole physical phase space. We find analytic expressions for pentagon functions which are manifestly free of unphysical branch cuts. We present a public library for numerical evaluation of pentagon functions suitable for immediate phenomenological applications.

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Planar two-loop five-parton amplitudes from numerical unitarity

Abreu

Cordero

Ita

et al. 2018

J. High Energ. Phys.

103

108

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We compute a complete set of independent leading-color two-loop five-parton amplitudes in QCD. These constitute a fundamental ingredient for the next-to-next-toleading order QCD corrections to three-jet production at hadron colliders. We show how to consistently consider helicity amplitudes with external fermions in dimensional regularization, allowing the application of a numerical variant of the unitarity method. Amplitudes are computed by exploiting a decomposition of the integrand into master and surface terms that is independent of the parton type. Master integral coefficients are numerically computed in either finite-field or floating-point arithmetic and combined with known analytic master integrals. We recompute leading-color two-loop four-parton amplitudes as a check of our implementation. Results are presented for all independent four-and five-parton processes including contributions with massless closed fermion loops.

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Triphoton production at hadron colliders in NNLO QCD

2021

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Leading-color two-loop QCD corrections for three-photon production at hadron colliders

Abreu

Page

Pascual

et al. 2021

J. High Energ. Phys.

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We compute the two-loop helicity amplitudes for the production of three photons at hadron colliders in QCD at leading-color. Using the two-loop numerical unitarity method coupled with analytic reconstruction techniques, we obtain the decomposition of the two-loop amplitudes in terms of master integrals in analytic form. These expressions are valid to all orders in the dimensional regulator. We use them to compute the two-loop finite remainders, which are given in a form that can be efficiently evaluated across the whole physical phase space. We further package these results in a public code which assembles the helicity-summed squared two-loop remainders, whose numerical stability across phase-space is demonstrated. This is the first time that a five-point two-loop process is publicly available for immediate phenomenological applications.

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Vasily Sotnikov

Analytic form of the planar two-loop five-parton scattering amplitudes in QCD

Pentagon functions for scattering of five massless particles

Planar two-loop five-parton amplitudes from numerical unitarity

Triphoton production at hadron colliders in NNLO QCD

Leading-color two-loop QCD corrections for three-photon production at hadron colliders

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