Experimental signals for a second resonance of the Higgs field

Abstract

In the region of invariant mass 620740 GeV, we have analyzed the ATLAS sample of 4-lepton events that could indicate a new scalar resonance produced mainly via gluon-gluon fusion. These data suggest the existence of a new heavy state H whose mass 660 680 GeV would fit well with the theoretical range MH = 690 10 ~( stat) 20 ~( sys)~ GeV for the hypothetical second resonance of the Higgs field that has been recently proposed and which would couple to longitudinal W's with the same typical strength of the low-mass state at 125 GeV. Since the total width H is very poorly determined, to sharpen the analysis of the precious ATLAS data, we have considered a particular correlation between resonating peak cross section σR(pp H 4l) and the ratio γH=H/MH. This correlation should be nearly insensitive to the precise value of H and mainly determined by the lower mass mh= 125 GeV. Equivalently, if this correlation holds true, one could also fit mh from the 4-lepton data in the high-mass range 620740 GeV. The result (mh) fit (125 13) GeV reproduces the direct measurement of the Higgs particle mass and thus supports the idea that mh and MH are the masses of two different excitations of the same field. Therefore, if we combine with the excess at 680 GeV in the ATLAS γγ distribution, there are now two signals for a new resonance in the same mass region. Even though, quantitatively, the global statistical significance of each effect is modest, still the sharp correlation γH-σR in the 4-lepton channel should induce to consider seriously these indications.