Add to ORKGWe present results of simulations of the quenched quarkonium spectrum at two values of the lattice spacing and for quark masses around $m_c$ using the tadpole improved clover action. Attention is focussed on the lowest lying S and P states, and the triplet fine structure is obtained for the first time using a relativistic action
We present results for Charmonium spectroscopy using Non-Relativistic QCD (NRQCD). For the NRQCD act...
We present a preliminary calculation of the charmonium spectrum using the dynamical 2+1 flavor $24^3...
Lattice methods are essential theoretical tools for performing calculations in quantum chromodynamic...
We present a detailed study of the charmonium spectrum using anisotropic lattice QCD. We first deriv...
We present a detailed study of the charmonium spectrum using anisotropic lattice QCD. We first deriv...
We present results for the mass spectrum of $c{\bar c}$ mesons simulated on anisotropic lattices whe...
Traditional perturbative techniques for solving QCD are unable to successfully describe the properti...
We present a preliminary calculation of the charmed meson spectrum using the 2+1 flavor domain wall ...
We present a lattice investigation of heavy-light mesons in the quenched approximation, using non-re...
We present non-perturbative results for the spectrum of heavy quarkonia. Using an anisotropic formul...
We perform a numerical test of a relativistic heavy quark(RHQ) action, recently proposed by Tsukuba ...
We use a relativistic highly improved staggered quark action to discretize charm quarks on the latti...
We study Bs and Ds spectroscopy in quenched lattice QCD using the Fermilab approach to heavy quarks....
Studying hadrons containing heavy quarks in lattice QCD is challenging mainly due to finite lattice ...
We present our final results of the charmonium spectrum in quenched QCD on anisotropic lattices. Sim...
We present results for Charmonium spectroscopy using Non-Relativistic QCD (NRQCD). For the NRQCD act...
We present a preliminary calculation of the charmonium spectrum using the dynamical 2+1 flavor $24^3...
Lattice methods are essential theoretical tools for performing calculations in quantum chromodynamic...
We present a detailed study of the charmonium spectrum using anisotropic lattice QCD. We first deriv...
We present a detailed study of the charmonium spectrum using anisotropic lattice QCD. We first deriv...
We present results for the mass spectrum of $c{\bar c}$ mesons simulated on anisotropic lattices whe...
Traditional perturbative techniques for solving QCD are unable to successfully describe the properti...
We present a preliminary calculation of the charmed meson spectrum using the 2+1 flavor domain wall ...
We present a lattice investigation of heavy-light mesons in the quenched approximation, using non-re...
We present non-perturbative results for the spectrum of heavy quarkonia. Using an anisotropic formul...
We perform a numerical test of a relativistic heavy quark(RHQ) action, recently proposed by Tsukuba ...
We use a relativistic highly improved staggered quark action to discretize charm quarks on the latti...
We study Bs and Ds spectroscopy in quenched lattice QCD using the Fermilab approach to heavy quarks....
Studying hadrons containing heavy quarks in lattice QCD is challenging mainly due to finite lattice ...
We present our final results of the charmonium spectrum in quenched QCD on anisotropic lattices. Sim...
We present results for Charmonium spectroscopy using Non-Relativistic QCD (NRQCD). For the NRQCD act...
We present a preliminary calculation of the charmonium spectrum using the dynamical 2+1 flavor $24^3...
Lattice methods are essential theoretical tools for performing calculations in quantum chromodynamic...