A Comparison of the Non-Standard Effects of Effective Theories with Linearly-Realized and Strongly-Interacting Higgs Sectors
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概要
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Effective theories provide a powerful tool for testing the Standard Model and for searching for the effects of new physics in a model-independent manner. In general one assumes that the effects of new physics characterized by a high-energy scale may be observed at low-energies only through quantum corrections. These quantum corrections may be described by effective operators which are constructed from the fields of the low-energy theory; the coefficients of these operators may be measured via experiment, but a theoretical determination is only possible once the complete theory is known. Because the existence or non-existence of a light physical Higgs boson has not yet been established the inclusion or exclusion of the Higgs field in the construction of the effective Lagrangian is open to debate. For this reason we discuss both the linearly realized effective Lagrangian, which includes a light physical Higgs boson, and the chiral Lagrangian, where the Higgs boson has been removed by a formal integration. In each scenario the contributions to oblique parameters and to W-pair-production amplitudes are discussed. Where possible relationships between the two effective Lagrangians are given.
- 理論物理学刊行会の論文
- 1996-09-25