Determination of an $\boldsymbol{η^3{\rm He}}$ bound state from the $\boldsymbol{pd \to η^3{\rm He}}$ reaction at threshold

Ju-Jun Xie, Wei-Hong Liang, Eulogio Oset, Pawel Moskal, Magdalena Skurzok, Colin Wilkin

Published 2016-09-12Version 1

We analyze the data on cross sections and asymmetries for the $pd (dp) \to \eta ^3{\rm He}$ reaction close to threshold and look for bound states of the $\eta ^3 {\rm He}$ system. Rather than parameterizing the scattering matrix, as is usually done, we develop a framework in which the $\eta ^3 {\rm He}$ optical potential is the key ingredient, and its strength, together with some production parameters, are fitted to the available experimental data. The relationship of the scattering matrix to the optical potential is established using the Bethe-Salpeter equation and the $\eta ^3 {\rm He}$ loop function incorporates the range of the interaction given by the empirical $^3 {\rm He}$ density. We predict the existence of a weakly bound state with a binding of around $0.3$~MeV and a width of about $3$~MeV. By fitting the potential we can also evaluate the $\eta ^3 {\rm He}$ scattering length, including its sign, thus resolving the ambiguity in the former analyses.