Quark Matter 2025

Astrophysical Equation-of-State Constraints on the Color-Superconducting Gap

8 Apr 2025, 17:10

20m

HZ 7 (Goethe University Frankfurt, Campus Westend, Hörsaalzentrum)

Oral QCD matter in astrophysics Parallel session 25

Speaker

Rachel Steinhorst (Massachusetts Institute of Technology)

Description

We demonstrate that astrophysical constraints on the dense-matter equation of state place an upper bound on the color-superconducting gap in dense matter above the transition from nuclear matter to quark matter. Pairing effects in the color-flavor locked (CFL) quark matter phase increase the pressure at high density, and if this effect is sufficiently large then the requirements of causality and mechanical stability make it impossible to reach such a pressure in a way that is consistent with what is known at lower densities. The intermediate-density equation of state is inferred by considering extensions of chiral effective field theory (CEFT) to neutron star densities, and conditioning these using current astrophysical observations of neutron star radius, maximum mass, and tidal deformability (PSR J0348+0432, PSR J1624-2230, PSR J0740+6620, GW170817). At baryon number chemical potential $\mu =2.6\text{GeV}$ we find a 95% upper limit on the CFL pairing gap $\mathrm{\Delta }$ of $457\text{MeV}$ using overly conservative assumptions and
$216\text{MeV}$ with more reasonable assumptions. This constraint may be strengthened by future astrophysical measurements as well as by future advances in high density QCD calculations.

Presentation materials

Quark_Matter_2025.pdf