TL;DR
This paper explains colormagnetic confinement in QCD using the Field Correlator Method, highlighting its role in hadron spectrum, bound states, and quark-gluon plasma thermodynamics at various temperatures.
Contribution
It provides a detailed theoretical treatment of colormagnetic confinement in QCD, emphasizing its significance in both zero and nonzero temperature regimes.
Findings
Colormagnetic confinement affects hadron spectrum properties.
It can generate bound states for quarks and gluons.
Colormagnetic confinement dominates the quark-gluon plasma's equation of state.
Abstract
Colormagnetic confinement as a natural component of the QCD confinement is explained and treated in the framework of the Field Correlator Method. For quarks and gluons in hadrons the effects of the colormagnetic confinement are discussed at zero temperature, where it contributes to the spectrum properties and can create its own bound states, while at nonzero temperature in the EoS of the quark gluon plasma the colormagnetic confinement plays a dominating role. Its properties in the QCD thermodynamics are discussed in detail.
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