Add to ORKGEnergies of four-quark systems with the tetrahedral geometry measured by the static quenched SU(2) lattice Monte Carlo method are analyzed by parametrizing the gluon overlap factor in the form exp(-[bs EA+{\sqrt bs}FP]) where A and P are the area and the perimeter defined mainly by the positions of the four quarks, bs is the string constant in the 2-quark potentials and E, F are constants
The unitarity limit describes interacting particles where the range of the interaction is zero and t...
We present first, exploratory results of a hybrid Monte-Carlo algorithm for dynamical, n_f = 2, four...
We study three-quark and multi-quark potentials in SU(3) lattice QCD. From accurate calculations for...
The energies of four-quark states are calculated for geometries in which the quarks are situated on ...
A first attempt to understand hadron dynamics at low energies in terms of the fundamental quark and ...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
We perform the detailed study of the tetraquark (4Q) potential V4Q for various QQ-Q¯¯¯Q¯¯¯ systems i...
Monte Carlo simulations done for four-dimensional lattice gauge systems are described, where the gau...
BORN KD, Laermann E, SOMMER R, WALSH TF, ZERWAS PM. THE INTERQUARK POTENTIAL - A QCD LATTICE ANALYSI...
The scaling behaviour of the quark-antiquark potential is investigated by ahigh statistics Monte Car...
We report on a QCD analysis of the potential between heavy quarks. Our calculation includes light qu...
We quantitatively study the tetraquark (4Q) potential $V_{\rm 4Q}$ for the QQ-$\rm \bar{Q}\bar{Q}$ s...
The scaling behaviour of the quark-antiquark potential is investigated by ahigh statistics Monte Car...
By Monte Carlo calculations on a 124 lattice we investigate four-dimensional SU(2) lattice gauge the...
Calculation techniques of Lattice QCD (Quantum Chromodynamics) offer special opportunities for the t...
The unitarity limit describes interacting particles where the range of the interaction is zero and t...
We present first, exploratory results of a hybrid Monte-Carlo algorithm for dynamical, n_f = 2, four...
We study three-quark and multi-quark potentials in SU(3) lattice QCD. From accurate calculations for...
The energies of four-quark states are calculated for geometries in which the quarks are situated on ...
A first attempt to understand hadron dynamics at low energies in terms of the fundamental quark and ...
After integration over the fermions in an SU(2) lattice gauge theory, the effective fermionic action...
We perform the detailed study of the tetraquark (4Q) potential V4Q for various QQ-Q¯¯¯Q¯¯¯ systems i...
Monte Carlo simulations done for four-dimensional lattice gauge systems are described, where the gau...
BORN KD, Laermann E, SOMMER R, WALSH TF, ZERWAS PM. THE INTERQUARK POTENTIAL - A QCD LATTICE ANALYSI...
The scaling behaviour of the quark-antiquark potential is investigated by ahigh statistics Monte Car...
We report on a QCD analysis of the potential between heavy quarks. Our calculation includes light qu...
We quantitatively study the tetraquark (4Q) potential $V_{\rm 4Q}$ for the QQ-$\rm \bar{Q}\bar{Q}$ s...
The scaling behaviour of the quark-antiquark potential is investigated by ahigh statistics Monte Car...
By Monte Carlo calculations on a 124 lattice we investigate four-dimensional SU(2) lattice gauge the...
Calculation techniques of Lattice QCD (Quantum Chromodynamics) offer special opportunities for the t...
The unitarity limit describes interacting particles where the range of the interaction is zero and t...
We present first, exploratory results of a hybrid Monte-Carlo algorithm for dynamical, n_f = 2, four...
We study three-quark and multi-quark potentials in SU(3) lattice QCD. From accurate calculations for...