English

Precise predictions for V+jets dark matter backgrounds

High Energy Physics - Phenomenology 2018-01-17 v2 High Energy Physics - Experiment

Abstract

High-energy jets recoiling against missing transverse energy (MET) are powerful probes of dark matter at the LHC. Searches based on large MET signatures require a precise control of the Z(ννˉ)+Z(\nu\bar\nu)+jet background in the signal region. This can be achieved by taking accurate data in control regions dominated by Z(+)+Z(\ell^+\ell^-)+jet, W(ν)+W(\ell\nu)+jet and γ+\gamma+jet production, and extrapolating to the Z(ννˉ)+Z(\nu\bar\nu)+jet background by means of precise theoretical predictions. In this context, recent advances in perturbative calculations open the door to significant sensitivity improvements in dark matter searches. In this spirit, we present a combination of state-of-the art calculations for all relevant V+V+jets processes, including throughout NNLO QCD corrections and NLO electroweak corrections supplemented by Sudakov logarithms at two loops. Predictions at parton level are provided together with detailed recommendations for their usage in experimental analyses based on the reweighting of Monte Carlo samples. Particular attention is devoted to the estimate of theoretical uncertainties in the framework of dark matter searches, where subtle aspects such as correlations across different V+V+jet processes play a key role. The anticipated theoretical uncertainty in the Z(ννˉ)+Z(\nu\bar\nu)+jet background is at the few percent level up to the TeV range.

Keywords

Cite

@article{arxiv.1705.04664,
  title  = {Precise predictions for V+jets dark matter backgrounds},
  author = {J. M. Lindert and S. Pozzorini and R. Boughezal and J. M. Campbell and A. Denner and S. Dittmaier and A. Gehrmann-De Ridder and T. Gehrmann and N. Glover and A. Huss and S. Kallweit and P. Maierhöfer and M. L. Mangano and T. A. Morgan and A. Mück and F. Petriello and G. P. Salam and M. Schönherr and C. Williams},
  journal= {arXiv preprint arXiv:1705.04664},
  year   = {2018}
}

Comments

32 pages + appendices, 21 figures. V2: NNLO QCD predictions and uncertainties included troughout; improved methodology for mixed QCD-EW uncertainties; more realistic NLO EW uncertainty in eq. (57); photon-induced processes estimated at NLO QCD; PDF uncertainties made publicly available; discussion of numerical results extended; overall presentation improved and streamlined

R2 v1 2026-06-22T19:45:38.504Z