Figure | Description |
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Pair production cross section | |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG September 2019 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG September 2018 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG May 2018 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG November 2017 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation are quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG September 2017 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG May 2017 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG Aug 2016 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG May 2016 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG March 2016 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG EPS September 2015 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG EPS May 2015 |

Summary of LHC and Tevatron measurements of the top-pair production cross-section as a function of the centre-of-mass energy compared to the NNLO QCD calculation complemented with NNLL resummation (top++2.0). The theory band represents uncertainties due to renormalisation and factorisation scale, parton density functions and the strong coupling. The measurements and the theory calculation is quoted at mtop=172.5 GeV. Measurements made at the same centre-of-mass energy are slightly offset for clarity. PNG September 2014 |

-- MartijnMulders - 2015-10-19 -- ReinhardSchwienhorst - 2019-09-23

This topic: LHCPhysics > LHCTopWG > LHCTopWGSummaryPlots > TopPairCrossectionSqrtsHistory

Topic revision: r10 - 2019-09-23 - ReinhardSchwienhorst

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