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EoS of quark matter and structure of compact stars. G. X. Peng University of Chinese Academy of Sciences Institute of High Energy Physics (UCAS/IHEP). Quarks and compact stars , 2014.10.20-22. Sunset view of UCAS. Nearby-APEC2014. EoS of quark matter and structure of compact stars.
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EoS of quark matter and structure of compact stars G. X. Peng University of Chinese Academy of Sciences Institute of High Energy Physics (UCAS/IHEP) Quarks and compact stars,2014.10.20-22
EoS of quark matter and structure of compact stars G.X. Peng @UCAS/IHEP 1、Introduction 2、EoS of quark matter 3、M-R of compact stars 4、Summary Ref.: [1] Xia & Peng et al. Phys. Rev. D 89 (2014) 105027. [2] J.F.Xu, Peng et al. Sci. Chin. Phys. Mech. Astron. 2014. [3] G.X. Peng et al. Phys. Rev. C 77 (2008) 065807. gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Quarks and compact stars gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Modern physics and QCD Asymptotic Freedom Quark Confinement Chiral symmetry gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Effective masses in physics RMF: Walecka 1995 NJL: NPA513:667 NMB: QMD: IJMPE06:515 …… gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Free-particle system gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
The equivalent mass m(n) - density dependent Z. Phys. C 9:271 PRC61:015201 62: 025801 PLB229:112 PRC72: 015204 EPL56 (2001) 361; PRC67:015202 ApJ 780: 135 gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stuars,2014.10.20-22
Scaling with both confinement & perturbative interaction “The structure of compact stars with a new quark mass scaling” ---Xia C J, 22 Oct. 2014 @quarks and compact stars Ref: Xia, Peng, et al, PRD89 (Oct. 2014) 100527 gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stuars,2014.10.20-22
Confinement by the density dependence gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Thermodynamics with equivalent masses 1 ZPC9(1981)271; PLB229(1989)112 3 PRC62(2000)025801; 72(2005)015204 77(2008)065807; PRD89(2014)105027 2 4 PRD51(1995)1989; 52:1276 PRC62(2000)15204 5 PRC77(2008) 055204 gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Inconsistency in the previous PRD 51(‘95)1989 Quarks and compact stars,2014.10.20-22
Necessary condition for thermodynamic consistency gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Necessary condition for thermodynamic consistency Path-independency Pressure ballence Specially,the pressure must be zero at the (free-)energy minimum gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stars,2014.10.20-22
Numerical check gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stuars,2014.10.20-22
Numerical check gxpeng@gucas.ac.cn, penggx@nsfc.gov.cn Quarks and compact stuars,2014.10.20-22
M-R relation in the equiv-particle model Quarks and compact stuars,2014.10.20-22
宇宙的不同层次 Perturbatiion model with running coupling, mass, and confnement Thermodynamic potential at leading order in the modified minimum-subtraction scheme
Determine the RG scale For 2-flavors:
Summary We study the M-R relation of compact stars considering both perturbation confinement interactions. For parameters With which SQM is absolutely stable, the maximum mass of quark stars can be about two time the solar mass.
A poem to the conference There are compact body in the remote sky. They are fascinlating and so high … Oh, one doesn’t know what they really are, but we can measure the M and R to explore a neutron or quark star. That’s why we are happily here, discussing models and observational data G.X.Peng, 21 Oct. 2014