Light-Quark Resonances at COMPASS

Abstract

The main goal of the spectroscopy program at COMPASS is to explore the light-meson spectrum in the mass range below about 2\,GeV/c2 using diffractive dissociation reactions. Our flagship channel is the production of three charged pions in the reaction: π- + p π-π-π+ + precoil, for which COMPASS has acquired the so far world's largest dataset of roughly 50\,M exclusive events using an 190\,GeV/c π- beam. In order to extract the parameters of the πJ and aJ resonances that appear in the π-π-π+ system, we performed the so far most comprehensive resonance-model fit, using Breit-Wigner parametrizations. This method in combination with the high statistical precision of our data allows us to study ground and excited states. We study the a4(2040) resonance in the (770)π G and f2(1270)π F decays. In addition to the ground state resonance a1(1260), we have found evidence for the a1(1640). We also study the spectrum of π2 states by simultaneously describing four JPC=2-+ waves using three π2 resonances, the π2(1670), the π2(1880), and the π2(2005). Using a novel analysis approach, where the resonance-model fit is performed simultaneously in narrow bins of the squared four-momentum transfer t' between the beam pion and the target proton, allows us to study the t' dependence of resonant and non-resonant components included in our model. We observe that for most of the partial waves, the non-resonant components show a steeper t' spectrum compared to the resonances and that the t' spectrum of most of the resonances becomes shallower with increasing resonance mass. We also study the t' dependence of the relative phases between resonance components. The pattern we observe is consistent with a common production mechanism of these states.