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Phases of cold holographic QCD: baryons, pions and rho mesons

Phases of cold holographic QCD: baryons, pions and rho mesons
Phases of cold holographic QCD: baryons, pions and rho mesons
We improve the holographic description of isospin-asymmetric baryonic matter within the Witten-Sakai-Sugimoto model by accounting for a realistic pion mass, computing the pion condensate dynamically, and including rho meson condensation by allowing the gauge field in the bulk to be anisotropic. This description takes into account the coexistence of baryonic matter with pion and rho meson condensates. Our main result is the zero-temperature phase diagram in the plane of baryon and isospin chemical potentials. We find that the effective pion mass in the baryonic medium increases with baryon density and that, as a consequence, there is no pion condensation in neutron-star matter. Our improved description also predicts that baryons are disfavored at low baryon chemical potentials even for arbitrarily large isospin chemical potential. Instead, rho meson condensation sets in on top of the pion condensate at an isospin chemical potential of about 9.4mπ. We further observe a highly non-monotonic phase boundary regarding the disappearance of pion condensation.
2542-4653
Kovensky, Nicolas
6fdce7c8-51ce-4d21-8223-e16bd1a182c8
Poole, Aaron
cef73035-4295-4ee7-a2cb-d33e90758864
Schmitt, Andreas
1765159f-255f-45e7-94ea-58c1c883d65f
Kovensky, Nicolas
6fdce7c8-51ce-4d21-8223-e16bd1a182c8
Poole, Aaron
cef73035-4295-4ee7-a2cb-d33e90758864
Schmitt, Andreas
1765159f-255f-45e7-94ea-58c1c883d65f

Kovensky, Nicolas, Poole, Aaron and Schmitt, Andreas (2023) Phases of cold holographic QCD: baryons, pions and rho mesons. SciPost Phys., 15. (doi:10.21468/SciPostPhys.15.4.162).

Record type: Article

Abstract

We improve the holographic description of isospin-asymmetric baryonic matter within the Witten-Sakai-Sugimoto model by accounting for a realistic pion mass, computing the pion condensate dynamically, and including rho meson condensation by allowing the gauge field in the bulk to be anisotropic. This description takes into account the coexistence of baryonic matter with pion and rho meson condensates. Our main result is the zero-temperature phase diagram in the plane of baryon and isospin chemical potentials. We find that the effective pion mass in the baryonic medium increases with baryon density and that, as a consequence, there is no pion condensation in neutron-star matter. Our improved description also predicts that baryons are disfavored at low baryon chemical potentials even for arbitrarily large isospin chemical potential. Instead, rho meson condensation sets in on top of the pion condensate at an isospin chemical potential of about 9.4mπ. We further observe a highly non-monotonic phase boundary regarding the disappearance of pion condensation.

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Accepted/In Press date: 21 August 2023
Published date: 13 October 2023
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Identifiers

Local EPrints ID: 499766
URI: http://eprints.soton.ac.uk/id/eprint/499766
DOI: doi:10.21468/SciPostPhys.15.4.162
ISSN: 2542-4653
PURE UUID: 103e8dca-5acf-4a66-91fb-32cb1b98d112
ORCID for Andreas Schmitt: ORCID iD orcid.org/0000-0003-2858-4450

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Date deposited: 03 Apr 2025 16:45
Last modified: 22 Aug 2025 02:14

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Author: Nicolas Kovensky
Author: Aaron Poole
Author: Andreas Schmitt ORCID iD

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