Probing Electroweak Symmetry Breaking via WW Interactions at High Energy Colliders
arXiv:hep-ph/9708402 · doi:10.1063/1.54448
Abstract
We classify the sensitivities of the future high energy hadron and electron colliders, such as the LHC and the future Linear Colliders, to probing all the next-to-leading order (NLO) bosonic operators for studying the electroweak symmetry breaking (EWSB) mechanism. We first develop a power counting rule (a generalization of Weinberg's counting method for the nonlinear sigma model) for the electroweak theories formulated by the chiral Lagrangian. Then, we formulate the Longitudinal-Goldstone Boson Equivalence Theorem as a physical criterion to discriminate the scattering processes that are not sensitive to the EWSB sector. The "complementarity" of different scattering processes via different colliders for a complete probe of all these NLO effective operators is demonstrated.
Plenary talk by C.P.Y. at "Beyond the Standard Model V", Balholm, Norway, April 29 - May 4, 1997; to appear in the conference proceedings, 14 pages, Latex2e