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The structure of neutron star by using the quark-meson coupling model Heavy Ion Meeting (2008. 11. 14) C. Y. Ryu Soongsil University, Korea.

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Presentation on theme: "The structure of neutron star by using the quark-meson coupling model Heavy Ion Meeting (2008. 11. 14) C. Y. Ryu Soongsil University, Korea."— Presentation transcript:

1 The structure of neutron star by using the quark-meson coupling model Heavy Ion Meeting (2008. 11. 14) C. Y. Ryu Soongsil University, Korea

2 Outline 1. Introduction and motivation - Structure of neutron star - Mass and radius relation - The observed masses of neutrons star - Motivation 2. Theory - Quark-meson coupling model (dense matter) - Exotic phases : hyperons, kaon condensation - Finite temperature 3. Results 4. Summary

3 1.Introduction and motivation

4

5 Hot and dense matter I - Heavy ion collision

6 Hot and dense matter II - Proto-neutron star The structure of supernovae The production of proto-neutron star

7 The production of neutron star

8 The structure of neutron star

9 The observed masses Maybe, blackhole

10 Motivation I 1) No strangeness : 2-3 M ๏ 2) Strangeness : 1-2 M ๏ - hyperons(Λ, Σ, Ξ) - kaon condensation - quark matter(u, d, s)

11 KEK PS-E471 (2004) Deep optical potential V 0 ≈ -120 MeV Y. Akaishi & T. Yamazaki, PRC65 (2002) N. Kaiser, P.B. Siegel & W. Weise, NPA594 (1995) J. Mares, E.Friedman and A. Gal,Nucl.Phys.A770 (2006) Ramos & E. Oset, Nucl. Phys. A671 (2000) V. K. Magas, E.Oset, A.Ramos, H.Toki, nucl-th/0611098 Chirally-motivated potentials Shallow optical potential V 0 ≈ -50 MeV Motivation II - Deeply bound kaonic nuclear states

12 Model dependency - Haron degree of freedom : Quantum Hadrodynamics (QHD) - Quark degree of freedom : Quark-meson coupling model (QMC) model σ, ω Motivation III

13 2. Theory

14 Quark-meson coupling model - MIT bag + mean fields Quark-meson coupling (QMC) model MIT bag + σ, ω mesons σ, ω Neutron star

15  Saturation density  0 = 0.17 fm -3  Binding energy B/A = ε/ρ – m N = 16 MeV  Effective mass of a nucleon m N */m N = 0.7 - 0.8 (0.78)  Compression modulus K -1 = 200 - 300 MeV  Symmetric energy a sym = 32.5 MeV The QMC model at saturation 1) Infinite, static and uniform matter 2) The properties of nuclear matter 3) The Lagrangian of QMC model for infinite nuclear matter

16 QMC model for hyperonic matter σ–ω–ρ(only u(d) quark) + σ*(980) –φ(1050) (only s quark) Lagrangian density for baryon octet and leptons Baryon octet : p, n, Λ, Σ +, Σ 0, Σ -, Ξ 0, Ξ -, lepton : e, μ

17 Naive picture of K - potential u d d u u 1)OZI rule : s-quark does not interact with u and d quarks p p 2) Antiparticle may feel very strong attraction. 3) Potential of particle Scalar (attractive)+ Vector (repulsive) 4) Potential of antiparticle – strong attraction Scalar (attractive)+ Vector (attractive) σ, ω K-K- u S u

18 Strong force of K - N and kaon condensation K - pp system Kaon condensation in medium

19 The RMF for kaon and antikaon Lagrangian density for baryon octet and leptons Langrangian density for kaon The potential of K - : U K- = - gσ – g ω 0

20 The QMC model at finite temperature 1.Thermodynamic grand potential : Ω = ε – TS - μρ 2. Pressure is Where 3. The condition for equilibrium – minimize Ω or maximize P.

21 TOV equation Macroscopic part – General relativity Microsopic part – QMC model Einstein field equation : Static and spherical symmetric neutron star (Schwarzschild metric) Static perfect fluid Diag T μν = (ε, p, p, p) TOV equation : equation of state (pressure, energy density)

22 The conditions in neutron star 1)Baryon number conservation : 2)Charge neutrality : 3)chemical equilibrium (Λ, Σ, Ξ) μ K = μ e ※ The condition for K - condensation

23 Eq. of state in kaon+hyperonic matter The energy density : The pressure :

24 3. Results

25 The population of particles in neutron star

26 The population of particles in neutron star

27 The population of particles in neutron star

28 The mass of a neutron star and kaon condensation

29 σmeson fields at finite temperature

30 The effective masses of a nucleon at finite temperature

31 Summaries 1. Hadronic phases : QHD and QMC models i) Proto-neutron star – 2.0 solar mass ii) Hyperons - 1.6-7 Solar mass iii) Kaon condensation – 1.4-5 solar mass But, we can see the model dependency in both. 2. All results depend on the coupling constants and the potentials of kaon and baryons. – Experiment has to confirm them. 3. If the observed mass is larger than 2.0 solar mass, all exotic phases are ruled out(?). 4. Finite temperature – symmetric matter

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