Intermediate and Heavy Higgs Boson Physics at a 0.5 TeV e+ e- Collider

Abstract

We explore the potential of a future e+ e- collider in the 0.5 TeV center-of-mass energy range to detect intermediate or heavy Higgs bosons in the Standard Model. We first briefly assess the production cross sections and update the decay branching fractions for a Higgs boson of intermediate mass, with MZ < mH < 2MW. We then study in detail the possibility of detecting a heavy Higgs boson, with mH > 2MW, through the production of pairs of weak bosons. We quantitatively analyze the sensitivity of the process e+ e- --> nu nubar W+ W- (ZZ) to the presence of a heavy Higgs-boson resonance in the Standard Model. We compare this signal to various backgrounds and to the smaller signal from e+ e- --> ZH --> mu+ mu- W+ W- (ZZ), assuming the weak-boson pairs to be detected and measured in their dominant hadronic decay modes W+ W- (ZZ) --> 4jets. A related Higgs-boson signal in 6-jet final states is also estimated. We show how the main backgrounds from e+ e- W+ W- (ZZ), e nu WZ, and t tbar production can be reduced by suitable acceptance cuts. Bremsstrahlung and typical beamstrahlung corrections are calculated. These corrections reduce Higgs-boson production by scattering mechanisms but increase production by annihilation mechanisms; they also smear out some dynamical features such as Jacobian peaks in pT(H). With all these corrections included, we conclude that it should be possible to detect a heavy Higgs-boson signal in the nu nubar W+ W-(ZZ) channels up to mass mH=350 GeV.

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