Jet azimuthal angle correlations in the production of a Higgs boson pair plus two jets at hadron colliders

Abstract

Azimuthal angle correlations of two jets in the process pp HHjj are studied. The loop induced O(αs4 α2) gluon fusion (GF) sub-process and the O(α4) weak boson fusion (WBF) sub-process are considered. The GF sub-process exhibits strong correlations in the azimuthal angles φ1,2 of the two jets measured from the production plane of the Higgs boson pair and the difference between these two angles φ1-φ2, and a very small correlation in the sum of them φ1+φ2. The impact of using a finite top mass mt value on the correlations is found crucial. The transverse momentum of the Higgs boson can be used to enhance or suppress the correlations. The impact of a non-standard value for the triple Higgs self-coupling on the correlations is found much smaller than that on other observables, such as the invariant mass of the two Higgs bosons. The peak shifts of the azimuthal angle distributions reflect the magnitude of parity violation in the gg HH amplitude and the dependence of the distributions on parity violating phases is analytically clarified. The WBF sub-process also produces correlated distributions and it is found that they are not induced by the quantum effect of the intermediate weak bosons but mainly by a kinematic effect. This kinematic effect is a characteristic feature of the WBF sub-process and is not observed in the GF sub-process. It is found that the correlations are different in the GF and in the WBF sub-processes. As part of the process dependent information, they will be helpful in the analyses of both the GF sub-process and the WBF sub-process at the LHC.