On the low-energy spectrum of spontaneously broken 4 theories

Abstract

The low-energy spectrum of a one-component, spontaneously broken 4 theory is generally believed to have the same simple massive form p2 + m2h as in the symmetric phase where < >=0. However, in lattice simulations of the 4D Ising limit of the theory, the two-point connected correlator and the connected scalar propagator show deviations from a standard massive behaviour that do not exist in the symmetric phase. As a support for this observed discrepancy, I present a variational, analytic calculation of the energy spectrum E1( p) in the broken phase. This analytic result, while providing the trend E1( p) p2 + m2h at large | p|, gives an energy gap E1(0)< mh, even when approaching the infinite-cutoff limit ∞ with that infinitesimal coupling λ 1/ suggested by the standard interpretation of "triviality" within leading-order perturbation theory. I also compare with other approaches and discuss the more general implications of the result.