Two-loop integrals for t t +jet production at hadron colliders in the leading colour approximation

Abstract

We compute the differential equations for the two remaining integral topologies contributing to the leading colour two-loop amplitudes for pp → ttj. We derive differential equations for the master integrals by solving the integration-by-parts identities over finite fields. Of the two systems of differential equations, one is presented in canonical ' d ' form, while the other is found to have an elliptic sector. For the elliptic topology we identify the relevant elliptic curve, and present the differential equations in a more general form which depends quadratically on ε and contains non-logarithmic one-forms in addition to the canonical d 's. We solve the systems of differential equations numerically using generalised series expansions with the boundary terms obtained using the auxiliary mass flow method. A summary of all one-loop and two-loop planar topologies is presented including the list of alphabet letters for the ' d ' form systems and high-precision boundary values.

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