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High Density QCD and Instantons

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abstract

Instantons generate strong non-perturbative interactions between quarks. In the vacuum, these interactions lead to chiral symmetry breaking and generate constituent quark masses on the order of 300-400 MeV. The observation that the same forces also provide attraction in the scalar diquark channel leads to the prediction that cold quark matter is a color superconductor, with gaps as large as $\sim$~100 MeV. We provide a systematic treatment of color superconductivity in the instanton model. We show that the structure of the superconductor depends on the number of flavors. In the case of two flavors, we verify the standard scenario and provide an improved calculation of the mass gap. For three flavors, we show that the ground state is color-flavor locked and calculate the chiral condensate in the high density phase. We show that as a function of the strange quark mass, there is a sharp transition between the two phases. Finally, we go beyond the mean field approximation and investigate the role of instanton-anti-instanton molecules, which -- besides superconducting gap formation -- provide a competitive mechanism for chiral restoration at finite density.

fields

hep-ph 1

years

2026 1

verdicts

UNVERDICTED 1

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FRG analysis of dense two-color QCD within the linear sigma model

hep-ph · 2026-06-30 · unverdicted · novelty 4.0

FRG analysis in the linear sigma model for QC2D shows enhanced meson U(1)_A anomaly couplings with increasing mu_q but suppressed topological susceptibility following chiral restoration at high density or temperature.

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  • FRG analysis of dense two-color QCD within the linear sigma model hep-ph · 2026-06-30 · unverdicted · none · ref 52 · internal anchor

    FRG analysis in the linear sigma model for QC2D shows enhanced meson U(1)_A anomaly couplings with increasing mu_q but suppressed topological susceptibility following chiral restoration at high density or temperature.