Z boson pair production at LHC in a stabilized Randall-Sundrum scenario

Abstract

We study the Z boson pair production at LHC in the Randall-Sundrum scenario with the Goldberger-Wise stabilization mechanism. It is shown that comprehensive account of the Kaluza-Klein graviton and radion effects is crucial to probe the model: The KK graviton effects enhance the cross section of g g Z Z on the whole so that the resonance peak of the radion becomes easy to detect, whereas the RS effects on the qq Z Z process are rather insignificant. The pT and invariant-mass distributions are presented to study the dependence of the RS model parameters. The production of longitudinally polarized Z bosons, to which the SM contributions are suppressed, is mainly due to KK gravitons and the radion, providing one of the most robust methods to signal the RS effects. The 1 σ sensitivity bounds on (π, mφ) with k/M Pl =0.1 are also obtained such that the effective weak scale π of order 5 TeV can be experimentally probed.

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