中文

Flavor-Changing Processes in Extended Technicolor

高能物理 - 唯象学 2009-11-10 v1

摘要

We analyze constraints on a class of extended technicolor (ETC) models from neutral flavor-changing processes induced by (dimension-six) four-fermion operators. The ETC gauge group is taken to commute with the standard-model gauge group. The models in the class are distinguished by how the left- and right-handed (L,R)(L,R) components of the quarks and charged leptons transform under the ETC group. We consider K0Kˉ0K^{0} - \bar K^0 and other pseudoscalar meson mixings, and conclude that they are adequately suppressed if the LL and RR components of the relevant quarks are assigned to the same (fundamental or conjugate-fundamental) representation of the ETC group. Models in which the LL and RR components of the down-type quarks are assigned to relatively conjugate representations, while they can lead to realistic CKM mixing and intra-family mass splittings, do not adequately suppress these mixing processes. We identify an approximate global symmetry that elucidates these behavioral differences and can be used to analyze other possible representation assignments. Flavor-changing decays, involving quarks and/or leptons, are adequately suppressed for any ETC-representation assignment of the LL and RR components of the quarks, as well as the leptons. We draw lessons for future ETC model building.

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引用

@article{arxiv.hep-ph/0409035,
  title  = {Flavor-Changing Processes in Extended Technicolor},
  author = {Thomas Appelquist and Neil Christensen and Maurizio Piai and Robert Shrock},
  journal= {arXiv preprint arXiv:hep-ph/0409035},
  year   = {2009}
}

备注

25 pages