Model-independent extraction of |Vtq| matrix elements from top-quark measurements at hadron colliders

Abstract

Current methods to extract the quark-mixing matrix element |Vtb| from single-top production measurements assume that |Vtb| |Vtd|, |Vts|: top quarks decay into b quarks with 100% branching fraction, s-channel single-top production is always accompanied by a b quark and initial-state contributions from d and s quarks in the t-channel production of single top quarks are neglected. Triggered by a recent measurement of the ratio R=|Vtb|2|Vtd|2+|Vts|2+|Vtb|2=0.90 0.04 performed by the D0 collaboration, we consider a |Vtb| extraction method that takes into account non zero d- and s-quark contributions both in production and decay. We propose a strategy that allows to extract consistently and in a model-independent way the quark mixing matrix elements |Vtd|, |Vts|, and |Vtb| from the measurement of R and from single-top measured event yields. As an illustration, we apply our method to the Tevatron data using a CDF analysis of the measured single-top event yield with two jets in the final state one of which is identified as a b-quark jet. We constrain the |Vtq| matrix elements within a four-generation scenario by combining the results with those obtained from direct measurements in flavor physics and determine the preferred range for the top-quark decay width within different scenarios.