We show that color confinement is a direct result of the nonabelian, i.e. nonlinear, nature of the color interaction in quantum chromodynamics. This makes it in general impossible to describe the color field as a collection of elementary quanta (gluons). A quark cannot be an elementary quanta of the quark field, as the color field of which it is the source is itself a source hence making isolated (noninteracting) quarks impossible. In geometrical language, the impossibility of quarks and gluons as physical particles arises due to the fact that the color Yang-Mills space does not have a constant trivial curvature.Godkänd; 2000; 20070420 (ysko
Construction of a strict non-perturbative quantum theory of strong interaction on a basis of quantum...
The Color-Flavor locking phenomenon is predicted to occur at ultra-high densities in Quantum Chromod...
Abelian and nonabelian gauge invariant states are directly compared to revisit how the unconfined ab...
We show that color confinement is a direct result of the nonabelian, i.e. nonlinear, nature of the c...
We study a model of quark confinement defined by the vanishing of colour currents. The model is show...
A sufficient condition for color confinement in quantum chromodynamics has been given in previous pa...
Quarks are not observed as free particles neither in Nature, nor as a product of high energy reactio...
Color confinement is only a supposition, which has not been proved in QCD yet. It is proposed here t...
Absolute confinement of its color charges is a natural property of gauge theories such as quantum ch...
The condition of confinement of quarks and gluons in QCD is derived. It is shown that color confinem...
Some aspects are discussed of the mechanism of color confinement in QCD by condensation of magnetic ...
All colored particles including dynamical quarks and gluons are confined if the color confinement cr...
Colour confinement is only a supposition, which has not yet been proven in QCD. Here we propose that...
We give a brief overview of the problem of quark confinement in hadronic physics, and outline a few ...
It is proposed that in quantum chromodynamics the colour charge of gluons and of anything with zero ...
Construction of a strict non-perturbative quantum theory of strong interaction on a basis of quantum...
The Color-Flavor locking phenomenon is predicted to occur at ultra-high densities in Quantum Chromod...
Abelian and nonabelian gauge invariant states are directly compared to revisit how the unconfined ab...
We show that color confinement is a direct result of the nonabelian, i.e. nonlinear, nature of the c...
We study a model of quark confinement defined by the vanishing of colour currents. The model is show...
A sufficient condition for color confinement in quantum chromodynamics has been given in previous pa...
Quarks are not observed as free particles neither in Nature, nor as a product of high energy reactio...
Color confinement is only a supposition, which has not been proved in QCD yet. It is proposed here t...
Absolute confinement of its color charges is a natural property of gauge theories such as quantum ch...
The condition of confinement of quarks and gluons in QCD is derived. It is shown that color confinem...
Some aspects are discussed of the mechanism of color confinement in QCD by condensation of magnetic ...
All colored particles including dynamical quarks and gluons are confined if the color confinement cr...
Colour confinement is only a supposition, which has not yet been proven in QCD. Here we propose that...
We give a brief overview of the problem of quark confinement in hadronic physics, and outline a few ...
It is proposed that in quantum chromodynamics the colour charge of gluons and of anything with zero ...
Construction of a strict non-perturbative quantum theory of strong interaction on a basis of quantum...
The Color-Flavor locking phenomenon is predicted to occur at ultra-high densities in Quantum Chromod...
Abelian and nonabelian gauge invariant states are directly compared to revisit how the unconfined ab...