Detecting and Studying the Lightest Pseudo-Goldstone Boson at Future pp, e+e- and μ+μ- Colliders

Abstract

For an attractive class of dynamical symmetry breaking (technicolor) models, the lightest neutral pseudo-Nambu-Goldstone boson () contains only down-type techniquarks and charged technileptons. We discuss the prospects for discovering and studying the of such models at the Tevatron and the LHC and at future and μpmum colliders. Depending upon the number of technicolors, , discovery of the at the Tevatron and the LHC in the gg mode could be possible over a wide range of mass. For =4, discovery of the at an collider via the reaction should be possible as long as is not near . In the collider mode of operation at an collider, the b b signal should be very robust if =4. For the minimal =1 case, detection of the at the Tevatron and in collisions will be very difficult, and the precision of measurements at the LHC and the collider decline markedly. A μpmum collider yields a production rate that does not depend markedly upon . At a μpmum collider discovery of the as an s-channel resonance should prove possible via scanning, even if it has not already been detected elsewhere. Once is precisely known, operation of the μpmum collider as a factory will allow precision measurements of enough observables to determine the number of technicolors of the theory and (up to a discrete set of ambiguities) the fundamental parameters of the low-energy effective Lagrangian describing the Yukawa couplings of the .

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