Hadronic D Decays Involving Scalar Mesons
arXiv:hep-ph/0212117 · doi:10.1103/PhysRevD.67.034024
Abstract
The nonleptonic weak decays of charmed mesons into a scalar meson and a pseudoscalar meson are studied. The scalar mesons under consideration are $Ï$ [or $f_0(600)$], $κ$, $f_0(980)$, $a_0(980)$ and $K^*_0(1430)$. A consistent picture provided by the data implies that the light scalars below or near 1 GeV form an SU(3) flavor nonet and are predominately the $q^2\bar q^2$ states, while the scalar mesons above 1 GeV can be described as a $q\bar q$ nonet. Hence, we designate $q^2\bar q^2$ to $Ï, κ, a_0(980), f_0(980)$ and $q\bar q$ to $K^*_0$. Sizable weak annihilation contributions induced from final-state interactions are essential for understanding the data. Except for the Cabibbo doubly suppressed channel $D^+\to f_0K^+$, the data of $D\toÏÏ, f_0Ï, f_0K, K^*_0Ï$ can be accommodated in the generalized factorization approach. However, the predicted rates for $D\to a_0Ï, a_0K$ are too small by one to two orders of magnitude when compared with the preliminary measurements. Whether or not one can differentiate between the two-quark and four-quark pictures for the $f_0(980)$ produced in the hadronic charm decays depends on the isoscalar $f_0-Ï$ mixing angle in the $q\bar q$ model.
27 pages, 3 figures, version to appear in Phys. Rev