Add to ORKGThe colour fields, created by a static gluon-quark-antiquark system, are computed in quenched SU(3) lattice QCD, in a 243 × 48 lattice at β = 6.2 and a = 0.07261(85) fm. We study two geometries, one with a U shape and another with an L shape. The particular cases of the two gluon glueball and quark-antiquark are also studied, and the Casimir scaling is investigated in a microscopic perspective. This also contributes to under-stand confinement with flux tubes and to discriminate between the models of fundamental versus adjoint confining strings, analogous to type-II and type-I superconductivity. PACS numbers: 11.15.Ha; 12.38.Gc 1
We calculate color electric fields of quark/antiquark ($\bar{q}q$) and 3 quark ($qqq$) systems withi...
AbstractResults of lattice analysis indicate that the static potential in SU(3) gauge theory is prop...
Glueball spectrum is studied using an improved gluonic action on asymmetric lattices in the pure SU(...
The colour fields, created by static sources belonging to different SU(3) representations, from the ...
The colour fields created by the static tetraquark and pentaquark systems are computed in quenched S...
We investigate the QCD flux tubes linking static colour charges of different SU(3) representations, ...
Using lattice Monte Carlo simulations of SU(3) pure gauge theory, we determine the spatial distribut...
Lattice computations with excited SU (3) representations suggest that the confining gluon–gluon inte...
The quark confinement in QCD is achieved by concentration of the chromoelectric field between the qu...
We study the flux tubes produced by static quark–antiquark, quark–quark and quark–adjoint charges at...
We present colour field density profiles for some of the first SU(3) gluonic excitations of the flux...
International audienceUsing first-principle numerical simulations, we investigate the Casimir effect...
We extend a previous numerical study of SU(3) Yang–Mills theory in which we measured the spatial dis...
Glueball spectrum is studied using an improved gluonic action on asymmetric lattices in the pure SU(...
AbstractWe investigate the relationship between colour confinement and the gauge independent Cho–Dua...
We calculate color electric fields of quark/antiquark ($\bar{q}q$) and 3 quark ($qqq$) systems withi...
AbstractResults of lattice analysis indicate that the static potential in SU(3) gauge theory is prop...
Glueball spectrum is studied using an improved gluonic action on asymmetric lattices in the pure SU(...
The colour fields, created by static sources belonging to different SU(3) representations, from the ...
The colour fields created by the static tetraquark and pentaquark systems are computed in quenched S...
We investigate the QCD flux tubes linking static colour charges of different SU(3) representations, ...
Using lattice Monte Carlo simulations of SU(3) pure gauge theory, we determine the spatial distribut...
Lattice computations with excited SU (3) representations suggest that the confining gluon–gluon inte...
The quark confinement in QCD is achieved by concentration of the chromoelectric field between the qu...
We study the flux tubes produced by static quark–antiquark, quark–quark and quark–adjoint charges at...
We present colour field density profiles for some of the first SU(3) gluonic excitations of the flux...
International audienceUsing first-principle numerical simulations, we investigate the Casimir effect...
We extend a previous numerical study of SU(3) Yang–Mills theory in which we measured the spatial dis...
Glueball spectrum is studied using an improved gluonic action on asymmetric lattices in the pure SU(...
AbstractWe investigate the relationship between colour confinement and the gauge independent Cho–Dua...
We calculate color electric fields of quark/antiquark ($\bar{q}q$) and 3 quark ($qqq$) systems withi...
AbstractResults of lattice analysis indicate that the static potential in SU(3) gauge theory is prop...
Glueball spectrum is studied using an improved gluonic action on asymmetric lattices in the pure SU(...
