Consequences of a Large Top-Quark Chiral Weak-Moment
Abstract
This talk concerns some theoretical patterns of the helicity amplitudes for t --> W b decay. The patterns involve both the standard model's four decay helicity amplitudes, ASM, and also the amplitudes A+ in the case of an additional tR --> bL tensorial coupling of relative strength + =EW /2 = 53 GeV. Such an additional electroweak coupling would arise if the observed top-quark has a large chiral weak-transition-moment. The A+ amplitudes are interpreted as corresponding to the observed top-quark decays. Three tWb-transformations A+=M ASM, ..., are used in simple characterization of the values of +, and of the mass ratios mW/mt, and mb/mt. Measurement of the sign of the ηL = +/- 0.46 helicity parameter, respectively for SM/+, due to the large interference between the W-longitudinal and W-transverse amplitudes, could exclude such a chiral weak-transition-moment in favor of the SM prediction.
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