Add to ORKGWe discuss a novel approach to renormalize the Electroweak Sector of the Standard Model, in which \sin^2\theta_{eff}, measured at the Z^0 peak, is identified with the basic renormalized electroweak mixing parameter. This approach shares the desirable convergence properties of the MS scheme and provides a framework for calculations that are strictly independent of the electroweak scale in finite orders of perturbation theory. We illustrate the method with updated precise calculations of \sin^2\theta_{eff} and M_W, as functions of M_H, and comment on the implications of these calculations for the Higgs boson search and the theoretical prediction of M_W
We discuss the renormalization of mixing angles for theories with extended scalar sectors. Motivated...
Recent calculations have significantly decreased the scheme and residual scale dependence of basic r...
We present, in the context of the Minimal Supersymmetric Standard Model, a detailed one-loop analyti...
We study the relationships between the basic parameters of the on-shell renormalization scheme and t...
AbstractThe consistent renormalization of all relevant sectors of the MSSM with complex parameters (...
The prediction of the effective electroweak mixing angle sin2θeff b in the Standard Model at two-lo...
We discuss the renormalization of the electric charge at the two-loop level in the standard model of...
We present a calculation of the electroweak mixing parameter $\sin^2 \theta_{eff}^{lept}$ that incor...
This talk summarizes the status of the standard model predictions for electroweak precision observab...
AbstractThis contribution discusses the current status of tests of the electroweak theory and some o...
We revisit the electroweak phase transition in the standard model with a real scalar, utilizing seve...
The algebraic method of renormalization is applied to the standard model of electroweak interactions...
We discuss the renormalization of the electroweak Standard Model at one loop using the leptonic effe...
The simplest interpretation of the global success of the Standard Model is that new physics decouple...
AbstractThe effective renormalizable theory describing electromagnetic and strong interactions of qu...
We discuss the renormalization of mixing angles for theories with extended scalar sectors. Motivated...
Recent calculations have significantly decreased the scheme and residual scale dependence of basic r...
We present, in the context of the Minimal Supersymmetric Standard Model, a detailed one-loop analyti...
We study the relationships between the basic parameters of the on-shell renormalization scheme and t...
AbstractThe consistent renormalization of all relevant sectors of the MSSM with complex parameters (...
The prediction of the effective electroweak mixing angle sin2θeff b in the Standard Model at two-lo...
We discuss the renormalization of the electric charge at the two-loop level in the standard model of...
We present a calculation of the electroweak mixing parameter $\sin^2 \theta_{eff}^{lept}$ that incor...
This talk summarizes the status of the standard model predictions for electroweak precision observab...
AbstractThis contribution discusses the current status of tests of the electroweak theory and some o...
We revisit the electroweak phase transition in the standard model with a real scalar, utilizing seve...
The algebraic method of renormalization is applied to the standard model of electroweak interactions...
We discuss the renormalization of the electroweak Standard Model at one loop using the leptonic effe...
The simplest interpretation of the global success of the Standard Model is that new physics decouple...
AbstractThe effective renormalizable theory describing electromagnetic and strong interactions of qu...
We discuss the renormalization of mixing angles for theories with extended scalar sectors. Motivated...
Recent calculations have significantly decreased the scheme and residual scale dependence of basic r...
We present, in the context of the Minimal Supersymmetric Standard Model, a detailed one-loop analyti...