1. Photon-pair jet production via gluon fusion at the LHC.
- Author
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Qiang Li and Gao Xiangdong
- Subjects
- *
JETS (Nuclear physics) , *PAIR production , *GLUONS , *NUCLEAR fusion , *LARGE Hadron Collider , *STANDARD model (Nuclear physics) , *QUARK confinement , *ATOMIC mass - Abstract
Photon-pair direct or jet-associated production is important for relevant standard model measurement, Higgs and new physics searches at the Large Hadron Collider (LHC). The loop-induced gluon-fusion process gg → &ggr;&ggr;g, which formally contributes only at the next-to-next-to-leading order to &ggr;&ggr; j productions, may get enhanced by the large gluon flux at the LHC. We have checked and confirmed previous results on gg→ &ggr;&ggr; (Dicus and Willenbrock 1988 Phys. Rev.D37 1801), &ggr;&ggr;g (de Florian and Kunszt 1999 Phys. Lett. B 460 184) at one loop, using the traditional Feynman diagram based approach, taking into account the quark mass effects, and updated them further for the 7 and 14 TeV LHC with new inputs and settings. We provide the details and results of the calculations, which involve manipulation of rank-5 pentagon integrals. Our results show that the gluon-fusion process can contribute about 10% of the Born result, especially at small M&ggr;&ggr; and PT &ggr;&ggr;, and increase further the overall scale uncertainty. Top quark loop effects are examined in detail, which become important near or above the threshold M&ggr;&ggr; ≳ 2mt . [ABSTRACT FROM AUTHOR]
- Published
- 2012
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