The $Î_b \to J/Ï~ K ~ Î$ decay and the higher order chiral terms of the meson baryon interaction
arXiv:1507.04640 · doi:10.1103/PhysRevD.92.076015
Abstract
We study the weak decay of the $Î_b$ into $ J/Ï~ K ~ Î$ and $J/Ï~ η~ Î$ states, and relate these processes to the $Î_b \to J/Ï~ \bar K ~N$ decay mode. The elementary weak transition at the quark level proceeds via the creation of a $J/Ï$ meson and an excited $sud$ system with $I=0$, which upon hadronization leads to $\bar K N$ or $ηÎ$ pairs. These states undergo final state interaction in coupled channels and produce a final meson-baryon pair. The $K Î$ state only occurs via rescattering, hence making the $Î_b \to J/Ï~ K ~ Î$ process very sensitive to the details of the meson-baryon interaction in strangeness $S=-1$ and isospin $I=0$. We show that the corresponding invariant mass distribution is dominated by the next-to-leading order terms of the chiral interaction. The $I=0$ selectivity of this decay, and its large sensitivity to the higher order terms, makes its measurement very useful and complementary to the $K^- p \to K Î$ cross section data. The rates of the $Î_b \to J/Ï~ K ~ Î$ and $Î_b \to J/Ï~ η~ Î$ invariant mass distributions are sizable compared to those of the $Î_b \to J/Ï~ \bar K ~N$ decay, which is measured experimentally, thus, we provide arguments for an experimental determination of these decay modes that will help us understand better the chiral dynamics at higher energies.
9 PAGES, 7 FIGURES