Pionic decay of a possible d'-dibaryon and the short-range NN interaction
arXiv:nucl-th/9708056 · doi:10.1103/PhysRevC.56.3295
Abstract
We study the pionic decay of a possible dibaryon d' --> N N Ïin the microscopic quark shell model. The initial d' dibaryon wave function (J^P=0^-, T=0) consists of one 1\hbarÏsix-quark shell-model s^5p[51]_X configuration. The most important final six-quark configurations s^6[6]_X, s^4p^2[42]_X and (s^4p^2-s^52s)[6]_X are properly projected onto the NN channel. The final state NN interaction is investigated by means of two phase-equivalent - but off-shell different - potential models. We demonstrate that the decay width Î_d' depends strongly on the short-range behavior of the NN wave function. In addition, the width Î_d' is very sensitive to the mass and size of the d' dibaryon. For dibaryon masses slightly above the experimentally suggested value M_d'=2.065 GeV, we obtain a pionic decay width of Î_d' = 0.18 - 0.32 MeV close to the experimental value Î_d' = 0.5 MeV.
28 pages, Revtex, three ps-figures included, accepted for publication in Phys.Rev.C (1997)