Accuracy and Precision in Collider Event Shapes

Abstract

In this thesis, we discuss and investigate the use of Soft-Collinear Effective Theory (SCET) for high precision calculations. In the first part of the work, we present an extraction of the strong coupling, αs(mZ) and the leading nonperturbative parameter 1, using the event shape C-parameter. By comparing lepton collider data to the C-parameter cross section, we extract values αs(mZ)=0.1123 0.0015 and 1=0.421 0.063\, GeV with 2/dof=0.988 for 404 bins of data. The later parts of this thesis are dedicated to using on-shell helicity methods to extend SCET beyond leading power. We present a complete set of scalar helicity building blocks and describe an interesting angular momentum selection rule that restricts how these building blocks can be assembled.