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CPOD2011 , Wuhan, China 1 Isospin Matter Pengfei Zhuang Tsinghua University, Beijing ● Phase Diagram at finite μ I ● BCS-BEC Crossover in pion superfluid.

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Presentation on theme: "CPOD2011 , Wuhan, China 1 Isospin Matter Pengfei Zhuang Tsinghua University, Beijing ● Phase Diagram at finite μ I ● BCS-BEC Crossover in pion superfluid."— Presentation transcript:

1 CPOD2011 , Wuhan, China 1 Isospin Matter Pengfei Zhuang Tsinghua University, Beijing ● Phase Diagram at finite μ I ● BCS-BEC Crossover in pion superfluid

2 QCD Phase Diagram Questions: 1) What is the phase of quark matter at finite μ I ? 2) Is μ I effect similar to μ B effect? 2) Is μ I effect similar to μ B effect? CPOD2011 , Wuhan, China 2 D. T. Son and M. A. Stephanov, Phys. Rev. Lett. 86, 592(2001) J. B. Kogut, D. K. Sinclair, Phys. Rev. D 66, 034505(2002) K. Splittorff, D. T. Son, and M. A. Stephanov, Phys. Rev. D64, 016003 (2001) M. Loewe and C. Villavicencio, Phys. Rev. D 67, 074034(2003) Michael C. Birse, Thomas D. Cohen, and Judith A.McGovern, Phys. Lett. B 516, 27 (2001) D. Toublan and J. B. Kogut, Phys. Lett. B 564, 212 (2003) A.Barducci, R. Casalbuoni, G. Pettini, and L. Ravagli, Phys. Rev. D 69, 096004 (2004) M. Frank, M. Buballa and M. Oertel, Phys. Lett. B 562, 221 (2003) L. He and P. Zhuang, Phys. Lett. B 615, 93 (2005)

3 3 BCS and BEC Pairing in BCS, T c is determined by thermal excitation of fermions, in BEC, T c is controlled by thermal excitation of collective modes. Is there a similar BCS-BEC structure for QCD condensed matter ? CPOD2011 , Wuhan, China

4 4 ●there is reliable lattice QCD result at finite T, but not yet precise lattice simulation at finite μ, we have to consider effective models. ● the physics is vacuum excitation at finite T but vacuum condensate at finite μ. ●the BCS inspired Nambu-Jona-Lasinio (NJL) model successfully describes the chiral condensate and color condensate. NJL Model chiral thermodynamics chiral and color condensate CPOD2011 , Wuhan, China

5 5 NJL with isospin symmetry breaking chiral and pion condensates with finite pair momentum quark propagator in MF quark chemical potentials gap equations: NJL at Finite μ I CPOD2011 , Wuhan, China He, Jin and PZ, PRD71, (2005)116001

6 6 Phase Structure of Pion Superfluid μBμBμBμB μIμIμIμI CPOD2011 , Wuhan, China He and PZ, PRD74, (2006)036005 Jiang and PZ, arXiv:1104.0094

7 7 meson polarization functions meson propagator at RPA pole of the propagator determines meson masses the new eigen modes are linear combinations of considering all possible channels in the bubble summation Quantum Fluctuations (Mesons) in RPA mixing among normal in pion superfluid phase CPOD2011 , Wuhan, China He, Jin, and PZ, PRD71, (2005)116001

8 8 Meson Mixing and Goldstone Mode mixing angles α between σ and π +, β between σ and π _, β between σ and π _, and γ between π + and π_ and γ between π + and π_ CPOD2011 , Wuhan, China Hao and PZ, PLB652, (2007)275

9 9 Meson Spectral Functions BECBCS meson spectra function between the temperatures T c and T* meson spectra function between the temperatures T c and T* CPOD2011 , Wuhan, China Sun, He and PZ, PRD75, (2007)096004

10 π – π scattering and BCS-BEC Crossover BCS: overlapped molecules, large π – π cross section BEC: identified molecules, ideal Boson gas limit BECBCS Normal Phase Pion Superfluid CPOD2011 , Wuhan, China talk by Shijun Mao, November 10 10 BECBCS

11 Yukawa Potential in Quark Matter meson exchange in nucleon scattering (1934-1935) U p nn p stable quark potential stable quark potential meson exchange in NJL at quark level screen mass screen mass CPOD2011 , Wuhan, China 11 Mu and PZ, Eur. Phys. J C58, (2008)271

12 Meson Screening Mass corresponding to the global isospin symmetry breaking, there is a Goldstone mode in the pion superfluid, which leads to a long range force between two quarks ! CPOD2011 , Wuhan, China 12 Jiang and PZ, arXiv:1104.0094

13 Quark Potential in Pion Superfluid 1) the maximum potential is located at the phase boundary. 2) the potential in pion superfluid is non-zero at extremely high isospin density, totally different from the temperature and baryon density effects ! 1) the maximum potential is located at the phase boundary. 2) the potential in pion superfluid is non-zero at extremely high isospin density, totally different from the temperature and baryon density effects ! talk by Yin Jiang, November 11 talk by Yin Jiang, November 11 CPOD2011 , Wuhan, China 13

14 14 Conclusion and Outlook 1)There exists a pion superfluid at high isospin density, and the Goldstone mode controls the thermodynamics of the system. 2) There exists a BCS-BEC crossover in the pion superfluid. 3) The maximum coupling is located at the phase transition boundary, similar to the temperature and baryon density effects. 4) The coupling is non-zero even at extremely high isospin density, totally different from the temperature and baryon density effects. Applications in neutron stars and intermediate energy nuclear collisions, like mass-radius relation, pion superfluid in curved space, and pion_-/pion_+ ratio. CPOD2011 , Wuhan, China

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