Vacuum of quantum chromodynamics is considered as environment for colour particles. Wilson loop corresponds to the fidelity of quantum motion. Confinement (exponential decreasing of Wilson loop) corresponds to instability and decoherence of pure colour states into a mixed white states. In the case of stochastic QCD vacuum in confinement regime the decay rate of Wilson loop, fidelity and purity is equal to the string tension. Higgs bosons, quantum fluctuations regularize inherently chaotic dynamics of Yang–Mills fields below critical energy density and lead the emergence of order-chaos transition. Squeezed and entangled states appear due to nonlinear interactions
The order and the universality class of the deconfining phase transition can provide insight into th...
Abstract We propose a unified description of two important phenomena: color confinement in large-N g...
Absolute confinement of its color charges is a natural property of gauge theories such as quantum ch...
Vacuum of quantum chromodynamics is considered as environment for colour particles. Wilson loop corr...
It is shown that in stochastic QCD a vacuum color quark is confined due to the interaction with envi...
The results of an interaction of a quantum state of quark with QCD vacuum, where the latter plays a ...
It is shown that the interaction of quark with the stochastic vacuum of QCD (considered as an enviro...
Confinement of spinless heavy quarks in stochastic QCD vacuum can be treated as decoherence. In this ...
The model of stochastic vacuum of quantum chromodynamics might be used for an alternative treatment ...
It is shown that the phenomenon of quantum decoherence, that arises during the interaction of a quan...
We show that in QCD stochastic vacuum white states of colour charges in the fundamental representati...
It is shown that confinement of spinless heavy quarks can be treated as decoherence of an arbitrary...
In the framework of stochastic QCD vacuum model we show that a colour particle losses its colour pro...
Theoretical justification of the occurrence of multimode squeezed and entangled colour states in QCD...
In this work the decoherence formalism of quantum mechanics is explored and applied to a number of i...
The order and the universality class of the deconfining phase transition can provide insight into th...
Abstract We propose a unified description of two important phenomena: color confinement in large-N g...
Absolute confinement of its color charges is a natural property of gauge theories such as quantum ch...
Vacuum of quantum chromodynamics is considered as environment for colour particles. Wilson loop corr...
It is shown that in stochastic QCD a vacuum color quark is confined due to the interaction with envi...
The results of an interaction of a quantum state of quark with QCD vacuum, where the latter plays a ...
It is shown that the interaction of quark with the stochastic vacuum of QCD (considered as an enviro...
Confinement of spinless heavy quarks in stochastic QCD vacuum can be treated as decoherence. In this ...
The model of stochastic vacuum of quantum chromodynamics might be used for an alternative treatment ...
It is shown that the phenomenon of quantum decoherence, that arises during the interaction of a quan...
We show that in QCD stochastic vacuum white states of colour charges in the fundamental representati...
It is shown that confinement of spinless heavy quarks can be treated as decoherence of an arbitrary...
In the framework of stochastic QCD vacuum model we show that a colour particle losses its colour pro...
Theoretical justification of the occurrence of multimode squeezed and entangled colour states in QCD...
In this work the decoherence formalism of quantum mechanics is explored and applied to a number of i...
The order and the universality class of the deconfining phase transition can provide insight into th...
Abstract We propose a unified description of two important phenomena: color confinement in large-N g...
Absolute confinement of its color charges is a natural property of gauge theories such as quantum ch...