Heavy charged Higgs boson production at next generation eγ colliders

Abstract

We assess the potential of future electron-positron linear colliders operating in the eγ mode in detecting charged Higgs bosons with mass around and larger than the top quark mass, using Compton back-scattered photons from laser light. We compare the pair production mode, e-γ e- H+H-, to a variety of channels involving only one charged Higgs scalar in the final state, such as the tree-level processes e-γ e H- 0 (0=h0,H0 and A0) and e-γ e f f H- (f=b,τ and τ) as well as the loop-induced channel e-γ e H-. We show that, when the charged Higgs boson mass is smaller than or comparable to half the collider energy, see 2MH, single production cross sections are of the same size as the pair production rate, whereas, for charged Higgs boson masses larger than see/2, all processes are heavily suppressed. In general, production cross sections of charged Higgs bosons via eγ scatterings are smaller than those induced at an e+e- collider and the latter represents a better option to produce and analyse such particles.

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