The exotic meson π1(1600) with JPC = 1-+ and its decay into (770)π

Abstract

We study the spin-exotic JPC = 1-+ amplitude in single-diffractive dissociation of 190 GeV/c pions into π-π-π+ using a hydrogen target and confirm the π1(1600) (770) π amplitude, which interferes with a nonresonant 1-+ amplitude. We demonstrate that conflicting conclusions from previous studies on these amplitudes can be attributed to different analysis models and different treatment of the dependence of the amplitudes on the squared four-momentum transfer and we thus reconcile their experimental findings. We study the nonresonant contributions to the π-π-π+ final state using pseudo-data generated on the basis of a Deck model. Subjecting pseudo-data and real data to the same partial-wave analysis, we find good agreement concerning the spectral shape and its dependence on the squared four-momentum transfer for the JPC = 1-+ amplitude and also for amplitudes with other JPC quantum numbers. We investigate for the first time the amplitude of the π-π+ subsystem with JPC = 1-- in the 3π amplitude with JPC = 1-+ employing the novel freed-isobar analysis scheme. We reveal this π-π+ amplitude to be dominated by the (770) for both the π1(1600) and the nonresonant contribution. We determine the (770) resonance parameters within the three-pion final state. These findings largely confirm the underlying assumptions for the isobar model used in all previous partial-wave analyses addressing the JPC = 1-+ amplitude.