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Nonperturbative contribution to the fermion propagator and dynamical electroweak symmetry breaking |
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| Authors: | V Elias T G Steele Mong Tong |
| Institution: | 1. Department of Applied Mathematics and Department of Physics, University of Western Ontario, N6A 5B7, London, Ontario, Canada 2. Department of Physics, University of Saskatchewan, S7N 0W0, Saskatoon, Saskatchewan, Canada 3. Department of Applied Mathematics, University of Western Ontario, N6A 5B7, London, Ontario, Canada |
| Abstract: | We examine the field-theoretical contribution of fermion-antifermion condensates arising from a weak-SU(2) doublet of condensing fermions to electroweak vacuum polarization functions. For the custodial-SU(2) case of equal condensates and masses, we find that the condensate contributions to vacuum polarization functions uphold the electroweak signature relationm w=m zcosθw, and that these contributions are decoupled entirely from oblique radiative corrections. If only the upper member of the doublet forms a fermion-antifermion condensate, the relationm w=m zcosθw is again upheld in the limit that the mass of the lower member of the doublet is small compared to that of the upper member. For this case, the upper-member's fermion-antifermion condensate is shown to enter oblique radiative corrections. In the absense of an explicit Higgs mechanism, identification of this doublet with (t, b) is shown to be excluded by present empirical bounds onS, T, andU parameters. Further phenomenological consequences of fermion-antifermion condensate contributions to theW-Z mass matrix are discussed, both in the absense and in the presence of an explicit Higgs mechanism. |
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