Daniel Baranowski, Maximilian Delto, Kirill Melnikov, Andrey Pikelner, Chen-Yu Wang
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Zero-jettiness soft function to third order in perturbative QCD
We present the high-precision result for the zero-jettiness soft function at
next-to-next-to-next-to-leading order (N3LO) in perturbative QCD. At this
perturbative order, the soft function is the last missing ingredient required
for the computation of a hadronic colour singlet production or a colour singlet
decay into two jets using the zero-jettiness variable as the slicing parameter.
Furthermore, the knowledge of the N3LO soft function enables the re-summed
description of the thrust distribution in the process $e^+ e^- \to
\textrm{hadrons}$ through next-to-next-to-next-to-leading logarithmic order,
which is important for the extraction of the strong coupling constant using
this shape variable. On the methodological side, the complexity of the
zero-jettiness variable forced us to develop a new semi-analytic method for
phase-space integration in the presence of constraints parameterized through
Heaviside functions which, hopefully, will be useful for further development of
the $N$-jettiness slicing scheme.
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