Hidden charm and bottom molecular states
Abstract
We investigate heavy quark symmetries for heavy light meson-antimeson systems in a contact-range effective field theory. In the SU(3) light flavor limit, the leading order Lagrangian respecting heavy quark spin symmetry contains four independent counter-terms. Neglecting corrections, three of these low energy constants can be determ1ined by theorizing a molecular description of the and states. Thus, we can predict new hadronic molecules, in particular the isovector charmonium partners of the and the states. We also discuss hadron molecules composed of a heavy meson and a doubly-heavy baryon, which would be related to the heavy meson-antimeson molecules thanks to the heavy antiquark-diquark symmetry. Finally, we also study the decay, which is not only sensitive to the short distance part of the molecular wave function, as the and decay modes are, but it is also affected by the long-distance structure of the resonance. Furthermore, this decay might provide some information on the interaction between the charm mesons.
Cite
@article{arxiv.1411.7828,
title = {Hidden charm and bottom molecular states},
author = {F. -K. Guo and C. Hidalgo-Duque and J. Nieves and A. Ozpineci and M. Pavon Valderrama},
journal= {arXiv preprint arXiv:1411.7828},
year = {2015}
}
Comments
Talk presented at the "International Conference on Exotic Atoms and Related Topics - EXA2014", Wien (Austria), September 2014