Abstract
For certain classes of Beyond the Standard Model theories, including composite Higgs models, the coupling of the Higgs to gauge bosons can be different from the Standard Model one. In this case, the multi-boson production via vector boson fusion (VBF) can be hugely enhanced in comparison to the SM production one due to the lack of cancellation in longitudinal vector boson scattering. Among these processes, triple Higgs boson production in VBF plays a special role - its enhancement is especially spectacular due to the absence of background from transversely polarised vector bosons in the final state. While the rates from $pp\to jjhhh$ production in vector boson fusion are too low at the LHC and even at future 33 TeV $pp$ colliders, we have found that the 100 TeV $pp$ future circular collider (FCC) has the unique opportunity to probe the $hVV$ coupling far beyond the LHC sensitivity. We have evaluated the $pp\to jjhhh$ rates as a function of deviation from the $hVV$ coupling and have found that the background is much smaller than the signal for observable signal rates. We also found that the 100 TeV $pp$ FCC can probe the $hVV$ coupling up to the permille level, which is far beyond the LHC reach. These results highlight a special role of the $hhh$ VBF production and stress once more the importance of the 100 TeV $pp$ FCC.
Highlights
FirsItnr2u0n1o2f,tahenLewHCscwaliatrhpaacrtoilclliesiwonasendeisrcgoyvoefrepdffisffid1⁄4uri8ngTtehVe [1,2]
While the rates from pp → jjhhh production in vector boson fusion are too low at the LHC and even at future 33 TeV pp colliders, we have found that the 100 TeV pp future circular collider (FCC) has the unique opportunity to probe the hVV coupling far beyond the LHC sensitivity
As has been shown previously, if the coupling of the Higgs boson to gauge bosons deviates from the standard model, multiboson production via vector-boson scattering can be hugely enhanced in comparison to the SM due to the lack of cancellation in longitudinal vector boson scattering
Summary
FirsItnr2u0n1o2f,tahenLewHCscwaliatrhpaacrtoilclliesiwonasendeisrcgoyvoefrepdffisffid1⁄4uri8ngTtehVe [1,2]. The vector boson scattering can be highly enhanced in such classes of models due to the lack of unitarity cancellations at high energies We investigate such an effect with the focus on triple Higgs boson production in vector boson fusion process (VBF) at high energy future proton-proton colliders. We have found that VBF triple Higgs boson production can only be visible at the 100 TeV pp FCC, the potential of this collider to explore the hVV coupling to vector bosons via this process is impressive: the process is effectively free of background for the boosted triple Higgs signature and at high luminosity, the hVV coupling can be measured up to permille precision.
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