High multiplicity processes with BlackHat and Sherpa

Jeppe R. Andersen; Stephanie Bartle; Zvi Bern; Fernando Febres; Cordero; Stefan H\"oche; David A. Kosower; Harald Ita; Nicola Adriano Lo; Presti; Daniel Ma\^itre; Kemal Ozeren

arXiv:1407.1621·hep-ph·July 8, 2014

High multiplicity processes with BlackHat and Sherpa

Jeppe R. Andersen, Stephanie Bartle, Zvi Bern, Fernando Febres, Cordero, Stefan H\"oche, David A. Kosower, Harald Ita, Nicola Adriano Lo, Presti, Daniel Ma\^itre, Kemal Ozeren

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Open Access

TL;DR

This paper introduces an intermediate storage format for NLO events, demonstrating its advantages through applications like PDF uncertainty calculations and combining multiplicity samples for dijet gap fraction predictions.

Contribution

It presents a new storage format for NLO events and showcases its benefits in various high-energy physics calculations.

Findings

01

Enhanced calculation of PDF uncertainties

02

Effective combination of multiplicity samples

03

Improved predictions for dijet gap fractions

Abstract

In this contribution, we present an intermediate storage format for next-to-leading order (NLO) events and explain the advantages of presenting a NLO calculation in this format. We also present some recent applications, including the calculation of PDF uncertainties and the combination of different multiplicity samples for the prediction of gap fractions in inclusive dijet events.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Quantum Chromodynamics and Particle Interactions · High-Energy Particle Collisions Research