From holography towards real-world nuclear matter
From holography towards real-world nuclear matter
Quantum chromodynamics is notoriously difficult to solve at nonzero baryon density, and most models or effective theories of dense quark or nuclear matter are restricted to a particular density regime and/or a particular form of matter. Here we study dense (and mostly cold) matter within the holographic Sakai-Sugimoto model, aiming at a strong-coupling framework in the wide density range between nuclear saturation density and ultrahigh quark matter densities. The model contains only three parameters, and we ask whether it fulfills two basic requirements of real-world cold and dense matter, a first-order onset of nuclear matter and a chiral phase transition at high density to quark matter. Such a model would be extremely useful for astrophysical applications because it would provide a single equation of state for all densities relevant in a compact star. Our calculations are based on two approximations for baryonic matter—first, an instanton gas and, second, a homogeneous ansatz for the non-Abelian gauge fields on the flavor branes of the model. While the instanton gas shows chiral restoration at high densities but an unrealistic second-order baryon onset, the homogeneous ansatz behaves exactly the other way around. Our study, thus, provides all ingredients that are necessary for a more realistic model and allows for systematic improvements of the applied approximations.
Li, Si-wen
9e1bb05a-5665-42df-af68-08a8fbf56b4c
Schmitt, Andreas
1765159f-255f-45e7-94ea-58c1c883d65f
Wang, Qun
f25a22b4-7762-4d41-98f3-2de0ebc6a5fb
21 July 2015
Li, Si-wen
9e1bb05a-5665-42df-af68-08a8fbf56b4c
Schmitt, Andreas
1765159f-255f-45e7-94ea-58c1c883d65f
Wang, Qun
f25a22b4-7762-4d41-98f3-2de0ebc6a5fb
Li, Si-wen, Schmitt, Andreas and Wang, Qun
(2015)
From holography towards real-world nuclear matter.
Physical Review D, 92, [026006].
(doi:10.1103/PhysRevD.92.026006).
Abstract
Quantum chromodynamics is notoriously difficult to solve at nonzero baryon density, and most models or effective theories of dense quark or nuclear matter are restricted to a particular density regime and/or a particular form of matter. Here we study dense (and mostly cold) matter within the holographic Sakai-Sugimoto model, aiming at a strong-coupling framework in the wide density range between nuclear saturation density and ultrahigh quark matter densities. The model contains only three parameters, and we ask whether it fulfills two basic requirements of real-world cold and dense matter, a first-order onset of nuclear matter and a chiral phase transition at high density to quark matter. Such a model would be extremely useful for astrophysical applications because it would provide a single equation of state for all densities relevant in a compact star. Our calculations are based on two approximations for baryonic matter—first, an instanton gas and, second, a homogeneous ansatz for the non-Abelian gauge fields on the flavor branes of the model. While the instanton gas shows chiral restoration at high densities but an unrealistic second-order baryon onset, the homogeneous ansatz behaves exactly the other way around. Our study, thus, provides all ingredients that are necessary for a more realistic model and allows for systematic improvements of the applied approximations.
Text
1505.04886v2
- Accepted Manuscript
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Published date: 21 July 2015
Identifiers
Local EPrints ID: 499102
URI: http://eprints.soton.ac.uk/id/eprint/499102
ISSN: 2470-0010
PURE UUID: 16d70787-3b54-45d7-9f8a-79eb53a3819a
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Date deposited: 07 Mar 2025 17:51
Last modified: 13 Mar 2025 02:49
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Author:
Si-wen Li
Author:
Qun Wang
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