Journal of High Energy Physics (Aug 2024)

A new Monte Carlo generator for BSM physics in B → K * ℓ + ℓ − decays with an application to lepton non-universality in angular distributions

  • Alexei Sibidanov,
  • Thomas E. Browder,
  • Shawn Dubey,
  • Shahab Kohani,
  • Rusa Mandal,
  • Saurabh Sandilya,
  • Rahul Sinha,
  • Sven E. Vahsen

DOI
https://doi.org/10.1007/JHEP08(2024)151
Journal volume & issue
Vol. 2024, no. 8
pp. 1 – 35

Abstract

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Abstract Within the widely used EvtGen framework, we have added a new event generator model for B → K * ℓ + ℓ − with improved standard model (SM) decay amplitudes and possible BSM physics contributions, which are implemented in the operator product expansion in terms of Wilson coefficients. This event generator can then be used to estimate the statistical sensitivity of a simulated experiment to the most general BSM signal resulting from dimension-six operators. We describe the advantages and potential of the newly developed ‘Sibidanov Physics Generator’ in improving the experimental sensitivity of searches for lepton non-universal BSM physics and clarifying signatures. The new generator can properly simulate BSM scenarios, interference between SM and BSM amplitudes, and correlations between different BSM observables as well as acceptance bias. We show that exploiting such correlations substantially improves experimental sensitivity. As a demonstration of the utility of the MC generator, we examine the prospects for improved measurements of lepton non-universality in angular distributions for B → K * ℓ + ℓ − decays from the expected 50 ab −1 data set of the Belle II experiment, using a four-dimensional unbinned maximum likelihood fit. We describe promising experimental signatures and correlations between observables. The use of lepton-universality violating ∆-observables significantly reduces uncertainties in the SM expectations due to QCD and resonance effects and is ideally suited for Belle II with the large data sets expected in the next decade. Thanks to the clean experimental environment of an e + e − machine, Belle II should be able to probe BSM physics in the Wilson coefficients C 7 and C 7 ′ $$ {C}_7^{\prime } $$ , which appear at low q 2 in the di-electron channel.

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