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Main Authors: Geißel, Andreas, Gorda, Tyler, Braun, Jens
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.03834
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author Geißel, Andreas
Gorda, Tyler
Braun, Jens
author_facet Geißel, Andreas
Gorda, Tyler
Braun, Jens
contents The equation of state of deconfined strongly interacting matter at high densities remains an open question, with effects from quark pairing in the preferred color-flavor-locked (CFL) ground state possibly playing an important role. Recent studies suggest that at least large pairing gaps in the CFL phase are incompatible with current astrophysical observations of neutron stars. At the same time, it has recently been shown that in two-flavor quark matter, subleading corrections from pairing effects can be much larger than would be naïvely expected, even for comparatively small gaps. In the present Letter, we compute next-to-leading-order corrections to the pressure of quark matter in the CFL phase arising from the gap and the strong coupling constant, incorporating neutron-star equilibrium conditions and current state-of-the-art perturbative QCD results. We find that the corrections are again quite sizable, and they allow us to constrain the CFL gap in the quark energy spectrum to $Δ_{\rm CFL} \lesssim 140~{\rm MeV}$ at a baryon chemical potential $μ_{\rm B} = 2.6~{\rm GeV}$, even when allowing for a wide range of possible behaviors for the dependence of the gap on the chemical potential.
format Preprint
id arxiv_https___arxiv_org_abs_2504_03834
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Color superconductivity under neutron-star conditions at next-to-leading order
Geißel, Andreas
Gorda, Tyler
Braun, Jens
High Energy Physics - Phenomenology
Nuclear Theory
The equation of state of deconfined strongly interacting matter at high densities remains an open question, with effects from quark pairing in the preferred color-flavor-locked (CFL) ground state possibly playing an important role. Recent studies suggest that at least large pairing gaps in the CFL phase are incompatible with current astrophysical observations of neutron stars. At the same time, it has recently been shown that in two-flavor quark matter, subleading corrections from pairing effects can be much larger than would be naïvely expected, even for comparatively small gaps. In the present Letter, we compute next-to-leading-order corrections to the pressure of quark matter in the CFL phase arising from the gap and the strong coupling constant, incorporating neutron-star equilibrium conditions and current state-of-the-art perturbative QCD results. We find that the corrections are again quite sizable, and they allow us to constrain the CFL gap in the quark energy spectrum to $Δ_{\rm CFL} \lesssim 140~{\rm MeV}$ at a baryon chemical potential $μ_{\rm B} = 2.6~{\rm GeV}$, even when allowing for a wide range of possible behaviors for the dependence of the gap on the chemical potential.
title Color superconductivity under neutron-star conditions at next-to-leading order
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2504.03834