Deeply-bound K- pp state in the 3He(in-flight K-, n) spectrum and its moving pole near the π N threshold

Abstract

The formation of a deeply-bound K- pp state with I=1/2, Jπ=0- by the 3He(in-flight K-, n) reaction is theoretically investigated in a distorted-wave impulse approximation using the Green's function method. The expected inclusive and semi-exclusive spectra at pK- = 1.0 GeV/c and θ lab = 0 are calculated for the forthcoming J-PARC E15 experiment. We demonstrate these spectra with several types of phenomenological K--``pp'' optical potentials U opt(E) which have an energy-dependent imaginary part multiplied by a phase space suppression factor, fitting to recent theoretical predictions or experimental candidates of the K-pp bound state. The results show that a cusp-like peak at the π N threshold is an unique signal for the K-pp bound state in the spectrum including the [K-pp] Y + N decay process from the two-nucleon K- absorption, as well as a distinct peak of the K-pp bound state. The shape of the spectrum is explained by a trajectory of a moving pole of the K-pp bound state in the complex energy plane. The importance of the spectrum with [K-pp] Y + N from the two-nucleon K- absorption is emphasized in order to extract clear evidence of the K-pp bound state.