Triviality-quantum decoherence of fermionic quantum chromodynamics SU(Nc)) in the presence of an external strong U(infinite) flavored constant noise field
Luiz C L Botelho
TL;DR
This paper investigates how external strong noise fields affect quantum decoherence in fermionic QCD, providing insights into confinement mechanisms by modeling the QCD vacuum with constant gauge fields.
Contribution
It introduces a novel analysis of triviality-quantum decoherence in fermionic QCD under strong noise, linking decoherence effects to confinement phenomena.
Findings
Decoherence induced by external noise supports confinement in QCD.
Modeling the QCD vacuum with constant gauge fields explains confinement.
External noise fields influence the gauge invariant sector of QCD.
Abstract
We analyse the triviality-quantum decoherence of Euclidean quantum chromodynamics in the gauge invariant sector in the presence of an external U(infinite)-flavor constant charged white noise reservoir and producing thus a proof for confinement in the Color-charge QCD through the modeling of the QCD vacuum by constant gauge fields
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