Speaker
Jaume Tarrus Castella
(Technische Universität München)
Description
During the past years experimental observations have revealed the existence of a large number of states above open flavor thresholds that can not be identified as standard heavy quarkonium states. In this talk we discuss the possibility that some of these states are heavy quarkonium hybrids. Heavy quarkonium hybrids are states formed by a heavy quark-antiquark pair in a color octet configuration bounded together by excited gluons. Heavy quarkonium hybrids can be treated with an analog of the Born-Oppenheimer approximation for molecules.
In a first step the heavy quarks are considered static, the energy levels of the gluonic degrees of freedom are the static energies. The gluonic static energies are non-perturbative and are computed on the lattice. In the short distance range the static energies can be described using potential non-relativisitc QCD. In a second step the hybrid energy levels are obtained by solving the Schrödinger equation for the heavy quarks with the gluonic potentials defined by the static energies.
Primary author
Jaume Tarrus Castella
(Technische Universität München)
Co-authors
Antonio Vairo
(Institut fuer Theoretische Physik-Ruprecht-Karls-Universitaet H)
Mr
Matthias Berwein
(Technische Universität München)
Nora Brambilla
(Institut fuer Theoretische Physik)
