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Bhabha scattering at NNLO with next-to-soft stabilisation

Pulak Banerjee, Tim Engel, Nicolas Schalch, Adrian Signer, Yannick Ulrich

2021Physics Letters B33 citationsDOIOpen Access PDF

Abstract

A critical subject in fully differential QED calculations originates from numerical instabilities due to small fermion masses that act as regulators of collinear singularities. At next-to-next-to-leading order (NNLO) a major challenge is therefore to find a stable implementation of numerically delicate real-virtual matrix elements. In the case of Bhabha scattering this has so far prevented the development of a fixed-order Monte Carlo at NNLO accuracy. In this paper we present a new method for stabilising the real-virtual matrix element. It is based on the expansion for soft photon energies including the non-universal subleading term calculated with the method of regions. We have applied this method to Bhabha scattering to obtain a stable and efficient implementation within the McMule framework. We therefore present for the first time fully differential results for the photonic NNLO corrections to Bhabha scattering.

Topics & Concepts

Bhabha scatteringPhysicsScatteringGravitational singularityMatrix (chemical analysis)Particle physicsDifferential (mechanical device)Order (exchange)PhotonMonte Carlo methodQuantum mechanicsMathematicsStatisticsEconomicsComposite materialThermodynamicsMaterials scienceFinanceParticle physics theoretical and experimental studiesQuantum Chromodynamics and Particle InteractionsHigh-Energy Particle Collisions Research
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