(1405)-matter: stable or unstable?

Abstract

A recent suggestion [PLB 774 (2017) 522] that purely-(1405) nuclei provide the absolute minimum energy in charge-neutral baryon matter for baryon-number A 8, is tested within RMF calculations. A broad range of interaction strengths, commensurate with ( K K NN)I=0 binding energy assumed to be of order 100 MeV, is scanned. It is found that the binding energy per , B/A, saturates for A 120 with values of B/A considerably below 100 MeV, implying that (1405) matter is highly unstable against strong decay to and hyperon aggregates. The central density of matter is found to saturate as well, at roughly twice nuclear matter density. Moreover, it is shown that the underlying very strong K N potentials, fitted for isospin I=0 to the mass and width values of (1405), fail to reproduce values of single-nucleon absorption fractions deduced across the periodic table from K- capture-at-rest bubble chamber experiments.