Abstract

We investigate the potential for detecting and studying Higgs bosons in γγ\gamma\gamma and eγe\gamma collisions at future linear colliders with energies below a TeV. Our study incorporates realistic γγ\gamma\gamma spectra based on available laser technology, and NLC and CLIC acceleration techniques. Results include detector simulations. We study the cases of: a) a SM-like Higgs boson based on a devoted low energy machine with see200\sqrt{s_{ee}}\le 200 GeV; b) the heavy MSSM Higgs bosons; and c) charged Higgs bosons in eγe\gamma collisions.We investigate the potential for detecting and studying Higgs bosons in γγ\gamma\gamma and eγe\gamma collisions at future linear colliders with energies below a TeV. Our study incorporates realistic γγ\gamma\gamma spectra based on available laser technology, and NLC and CLIC acceleration techniques. Results include detector simulations. We study the cases of: a) a SM-like Higgs boson based on a devoted low energy machine with see200\sqrt{s_{ee}}\le 200 GeV; b) the heavy MSSM Higgs bosons; and c) charged Higgs bosons in eγe\gamma collisions

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