Non-relativistic spectrum of two-color QCD at non-zero baryon density

The heavy quarkonium spectrum of Two Color QCD (QC2D) at non-zero quark chemical potential μ and temperature T with μ/T≫1 has been calculated in both S- and P-wave channels using a lattice non-relativistic formulation of QC2D. As μ is varied, the quarkonium spectra reveal three separate regions, cor...

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Veröffentlicht in:	Physics letters. B 2012-05, Vol.711 (2), p.199-204
Hauptverfasser:	Hands, Simon, Kim, Seyong, Skullerud, Jon-Ivar
Format:	Artikel
Sprache:	eng
Schlagworte:	Baryons Channels Density Elementary particles Exact sciences and technology Mathematical analysis Non-relativistic lattice gauge theory Non-zero baryon density Non-zero temperature Nuclear physics Phase diagram Physics Quantum chromodynamics Quarkonium Quarks Spectra The physics of elementary particles and fields Two-color QCD
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container_title	Physics letters. B
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creator	Hands, Simon Kim, Seyong Skullerud, Jon-Ivar
description	The heavy quarkonium spectrum of Two Color QCD (QC2D) at non-zero quark chemical potential μ and temperature T with μ/T≫1 has been calculated in both S- and P-wave channels using a lattice non-relativistic formulation of QC2D. As μ is varied, the quarkonium spectra reveal three separate regions, corroborating previous findings that there are three distinct physical regimes of QC2D at low temperature and high baryon density: hadronic matter, quark/quarkyonic matter, and deconfined matter. The results are interpreted in terms of the formation of heavy-light Qq states in the two-color baryonic medium.
doi_str_mv	10.1016/j.physletb.2012.04.002
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subjects	Baryons Channels Density Elementary particles Exact sciences and technology Mathematical analysis Non-relativistic lattice gauge theory Non-zero baryon density Non-zero temperature Nuclear physics Phase diagram Physics Quantum chromodynamics Quarkonium Quarks Spectra The physics of elementary particles and fields Two-color QCD
title	Non-relativistic spectrum of two-color QCD at non-zero baryon density
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