Parton Showers beyond Leading Logarithmic Accuracy
Copyright policy )Parton Showers beyond Leading Logarithmic Accuracy
Parton showers are among the most widely used tools in collider physics. Despite their key importance, none so far has been able to demonstrate accuracy beyond a basic level known as leading logarithmic (LL) order, with ensuing limitations across a broad spectrum of physics applications. In this letter, we propose criteria for showers to be considered next-to-leading logarithmic (NLL) accurate. We then introduce new classes of shower, for final-state radiation, that satisfy the main elements of these criteria in the widely used large-$N_C$ limit. As a proof of concept, we demonstrate these showers' agreement with all-order analytical NLL calculations for a range of observables, something never so far achieved for any parton shower.
6 pages, 2 figures, plus supplemental material; v2 brings extra references and clarifications, as accepted by Physical Review Letters
- University of Paris-Saclay France
- L'Institut de physique théorique France
- The University of Manchester
- Université Paris-Saclay France
- University of Salford United Kingdom
[PHYS.HPHE] Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics - Phenomenology, radiation: final-state interaction, High Energy Physics - Phenomenology (hep-ph), leading logarithm approximation: higher-order, quantum chromodynamics, Elementary Particles and Fields, FOS: Physical sciences, numerical calculations: Monte Carlo, expansion 1/N: color, parton: showers
[PHYS.HPHE] Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics - Phenomenology, radiation: final-state interaction, High Energy Physics - Phenomenology (hep-ph), leading logarithm approximation: higher-order, quantum chromodynamics, Elementary Particles and Fields, FOS: Physical sciences, numerical calculations: Monte Carlo, expansion 1/N: color, parton: showers
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