Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
1999-06-04
Physics
High Energy Physics
High Energy Physics - Phenomenology
172 pages, psfig.sty and here.sty are required
Scientific paper
The object of this thesis is to study the spin-spin correlations for top quark productions and their decay at polarized e^+e^- linear colliders. For the analyses of the spin-spin correlations in top quark production, we introduce a generic spin basis and show which spin basis is the most optimal. We discuss the spin-angular correlations for the top quark decay, and demonstrate that the directions of electro-weak decay products of polarized top quarks are strongly correlated to the top quark spin. We also explain how to measure the top quark spin using decay products. The spin correlations using the generic spin basis are extensively studied at the next to leading order of QCD for top quark productions at e^+e^- colliders. The radiative corrections induce an anomalous \gamma/Z magnetic moment for the top quarks and allow for real gluon emissions. Therefore they might change the leading order analyses. We show that higher order effects on the top quark spin orientation are very small. The final results are that the top (or anti-top) quarks are produced in an essentially unique spin configuration for a particular spin basis even after including the {\cal O}(\alpha_{s}) QCD corrections. Our results imply that measuring the spin correlation for top quarks is very promising to reveal new aspects of the Standard Model, as well as new physics beyond the Standard Model.
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