The effects of large extra dimensions on associated tt h0 production at linear colliders

Abstract

In the framework of the large extra dimensions (LED) model, the effects of LED on the processes and at future linear colliders are investigated in both polarized and unpolarized collision modes. The results show that the virtual Kaluza-Klein (KK) graviton exchange can significantly modify the standard model expectations for these processes with certain polarizations of initial states. The process with s=3.5 TeV allows the effective scale T to be probed up to 7.8 and 8.6 TeV in the unpolarized and Pγ = 0.9, J=2 polarized γ γ collision modes, respectively. For the process with s=3.5 TeV, the upper limits of T to be observed can be 6.7 and 7.0 TeV in the unpolarized and Pe+ = 0.6, Pe- = 0.8, -+ polarized e+e- collision modes, respectively. We find the channel in J=2 polarized photon collision mode provides a possibility to improve the sensitivity to the graviton tower exchange.

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