Scaling analysis of the O(4)-symmetric 4-theory in the broken phase

Abstract

We study the O(4)-symmetric 4 -theory in the scaling region of the broken phase using the standard and a Symanzik improved action with infinite bare self-coupling λ. A high precision Monte Carlo simulation is performed by applying the reflection cluster algorithm. Employing the histogram method we analytically continue to a sequence of values of the hopping parameter neighbouring the actually simulated ones. In the investigated vicinity of the critical point c finite volume effects affecting, e.g., the determination of the field expectation value and the mass mσ of the σ-particle are very well described by 1-loop renormalized perturbation theory. We carry out a detailed scaling analysis on a high level of precision. Finally we discuss the upper bound on the Higgs mass for both kinds of actions.