John M. Campbell scite author profile

We present numerical results ͑including full one-loop QCD corrections͒ for the processes pp and pp →W ϩ W Ϫ , W Ϯ Z/␥* and Z/␥* Z/␥* followed by the decay of the massive vector bosons into leptons. In addition to their intrinsic importance as tests of the standard model, these processes are also backgrounds to conjectured non-standard model processes. Because of the small cross sections at the Fermilab Tevatron, full experimental control of these backgrounds will be hard to achieve. This accentuates the need for up-to-date theoretical information. A comparison is made with earlier work and cross section results are presented for pp collisions at ͱsϭ2 TeV and pp collisions at ͱsϭ14 TeV. Practical examples of the use of our calculations are presented.

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Vector boson pair production at the LHC

Campbell

Ellis

Williams

2011

J. High Energ. Phys.

744

602

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We present phenomenological results for vector boson pair production at the LHC, obtained using the parton-level next-to-leading order program MCFM. We include the implementation of a new process in the code, pp → γγ, and important updates to existing processes. We incorporate fragmentation contributions in order to allow for the experimental isolation of photons in γγ, W γ, and Zγ production and also account for gluon-gluon initial state contributions for all relevant processes. We present results for a variety of phenomenological scenarios, at the current operating energy of √ s = 7 TeV and for the ultimate machine goal, √ s = 14 TeV. We investigate the impact of our predictions on several important distributions that enter into searches for new physics at the LHC.

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MCFM for the Tevatron and the LHC

Campbell¹,

Ellis²

2010

Nuclear Physics B - Proceedings Supplements

579

567

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A summary is given of the current status of the next-to-leading order (NLO) parton-level integrator MCFM. Some details are given about the Higgs + 2-jet process and the production and decay of $t \bar{t}$, both of which have recently been added to the code. Using MCFM, comparisons between the Tevatron running at $\sqrt{s}=2$~TeV and the LHC running at $\sqrt{s}=7$~TeV are made for standard model process including the production of Higgs bosons. The case for running the Tevatron until 16fb$^{-1}$ are accumulated by both detectors is sketched.Comment: Talk presented by R.K Ellis at Loops and Legs in Quantum Field Theory 2010, Woerlitz, Germany, April 25-30, 2010, (6 pages and 4 figures

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ΥProduction at Fermilab Tevatron and LHC Energies

et al. 2008

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We update the theoretical predictions for direct Upsilon(nS) hadroproduction in the framework of nonrelativistic QCD. We show that the next-to-leading order corrections in alpha(S) to the color-singlet transition significantly raise the differential cross section at high p(T) and substantially affect the polarization of the Upsilon. Motivated by the remaining gap between the next-to-leading order yield and the cross-section measurements at the Fermilab Tevatron, we evaluate the leading part of the alpha(S)(5) contributions, namely, those coming from Upsilon(nS) associated with three light partons. The differential color-singlet cross section at alpha(S)(5) is in substantial agreement with the data, so that there is no evidence for the need of color-octet contributions. Furthermore, we find that the polarization of the Upsilon(nS) is longitudinal. We also present our predictions for Upsilon(nS) production at the LHC.

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Next-to-leading order corrections toW+2jet andZ+2jet production at hadron colliders

2002

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We report on QCD radiative corrections to the processes pp →Wϩ2 jets and pp →Zϩ2 jets at the Fermilab Tevatron. These processes are included in the Monte Carlo program MCFM, which allows the calculation of any infrared finite variable at next-to-leading order. Because of a better theoretical description of jets at next-to-leading order, some distributions exhibit significant corrections. As expected, the unphysical dependence of theoretical predictions upon the renormalization and factorization scales is greatly reduced compared to leading order. As an example of the predictions that may now be made with MCFM, we present a next-toleading order estimate of the heavy flavor content of jets produced in association with vector bosons.

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John M. Campbell

Update on vector boson pair production at hadron colliders

Vector boson pair production at the LHC

MCFM for the Tevatron and the LHC

ΥProduction at Fermilab Tevatron and LHC Energies

Next-to-leading order corrections toW+2jet andZ+2jet production at hadron colliders

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