Abstract :
It has recently been shown that through the τν decay mode the heavy charged Higgs bosons H± can be discovered at LHC over a vast region of the parameter space previously thought unaccessible. If the charged Higgs bosons are discovered in this decay mode and the measurements of its mass and tanβ are made, it allows us to make greater use of the dominant but Qcd background contaminated bt decay mode by cuts suppressing phase space for the background. In this paper we study the top quark polarisation in the bt decay mode. When tanβ is either moderately large (tanβ≳9) or small (tanβ≲4), the correlation effects can be used as a signal of H± production. We outline the analysis procedure for various decay signatures. As an example, we demonstrate the application of our procedure to the dominant production process gb→tH− at LHC. The effect is clearly observable for H± mass between 200 GeV and 500 GeV in both leptonic and hadronic channels, but at 500 GeV the boost on the top quark starts to prevent the reconstruction of invariant masses, and hence the observation of the correlation effect, in the hadronic decay channel.
