Presentation is loading. Please wait.

Presentation is loading. Please wait.

三味大原子核 & SKA 与 eXTP 3-f Matter R. X. Xu 徐仁新 ( ) “ 中子星与核天体物理 ” 2015 年 12 月 20 日;厦门大学天文学系.

Published byMatilda Blankenship Modified over 8 years ago

Similar presentations

Presentation on theme: "三味大原子核 & SKA 与 eXTP 3-f Matter R. X. Xu 徐仁新 ( ) “ 中子星与核天体物理 ” 2015 年 12 月 20 日;厦门大学天文学系."— Presentation transcript:

1 三味大原子核 & SKA 与 eXTP 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu 徐仁新 ( ) “ 中子星与核天体物理 ” 2015 年 12 月 20 日;厦门大学天文学系

2 天文语言:大质量恒星晚期塌缩行程的遗骸 物理语言:正常重子物质被引力强烈压缩 Compressed Baryonic Matter CBM 脉冲星 = 三味大原子核 ? 为了解释这个想法,我先讨论一个问题 …

3 Why our baryonic matter is 2-flavor- (rather than 1- or 3-) symmetric? Note: Energy scale ~ 0.4 GeV < 1 GeV (~0.5 fm) pc ~  c ~ 200 MeV·fm Anthropic principle? S trange M atter NQCD!

4 Summary Strange Matter: bigger is diff.! Observational hints from SM? Conclusions 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

5 The symmetry-energy in liquid-drop model Five terms in mass formula of nucleus with Z protons and N neutrons (A = Z + N): E (Z, N) = volumesurfacesymmetryCoulombpairing Why does there exist symmetry-energy? Fermi gas of nucleons: still weakly interaction inside a nucleus? E pn EFEF  For non-relativistic neutrons and protons: p F  n 1/3, E F  n 2/3   Interaction really negligible? The kinetic term of Nuclear Symmetry Energy Strange Matter: bigger is diff.!

6 Fermi gas of nucleons: still weakly interaction inside a nucleus? Alternatively, stronger interaction there? (an analogy: NaCl) A note: electrons have to participate in 2-flavour symmetry matter! …but it doesn't matter for microscopic nuclei because of  em <<  s.. l ~ 10 -1 A ~ 10 4 fm kinematic motion is bound by EM interaction: p 2 /m e ~ e 2 /l Heisenberg’s relation: p  l ~    Electrons contribute negligible energy for micro-nuclei! 。 ~ 10 -5 MeV The potential term of Nuclear Symmetry Energy dominates! Strange Matter: bigger is diff.! 2-flavuor micro-nuclei is energetically favored! 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

7 3-flvuor symmetry in gigantic/macro-nuclei? Huge Thomson atom if 2-flavour symmetry keeps... Huge Thomson atom with A > 10 9 disadvantages: though Coulomb energy could not be significant, but the Fermi energy of electrons: E F ~  cn 1/3 ~ 10 2 MeV! advantages if strangenization... (1) minimizing the electron’s contribution of kinetic energy, (2) maximizing the flavour number (only 2 if neutronization!). Micro-nucleus: 2 -f nucleon VS. Macro-nucleus: 3 -f quark-cluster Strange Matter: bigger is diff.! >> c ~ 10 3 fm 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

8 2-f micro-nucleus VS 3-f macro-nucleus proton neutron f = 2f = 3 u u d u d d u s d d u s Strange Matter: condensed matter of quark-clusters! Strange Matter: bigger is diff.! ~ fm > c ~ 10 3 fm Quantum gas/liquid?Classical solid?! (an extension of the Bodmer–Witten conjecture: strange quark matter) 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

9 Summary Strange Matter: bigger is diff.! Observational hints from SM? Conclusions 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

10 CBM is produced inside massive stars after SN SN occurs due to gravitational energy release when nuclear power cannot stand against gravity. Where and observational evidence? Pulsar: neutron/strange? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

11 Pulsars: Neutron star V.S. Strange star Observational hints from SM? What if normal baryonic matter is compressed by gravity in a core of massive evolved star, the nature of compressed baryonic matter (CBM)? It is very necessary to kill the electrons by weak interaction… 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

12 Pulsars: different models in the market… conventional Neutron Star light flavour symmetry: Strange Star Observational hints from SM? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

13 1 Quark-cluster stars Normal neutron stars Xu (2008) Pulsars: Observational hints? Observational hints from SM?

14 Subpulse drifting: PSG or self-bound surface? Bi-drifting: strong self-bound quark surface? Nonatomic spectra: quark surface? Clean fireball for SNE & GRB? Precessions of pulsars? Quake-induced free energy for AXP/SGRs? Non-thermal emission: bound strongly? Thermal emission: featureless & clear? Quark-cluster stars in a solid state? Obs. tests of stiff equation of state? Surface Global Observational hints from SM? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

15 Observational hints from SM? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

16 Watts et al. (2015) Hyperon puzzle? Quark-confinement? in this quark-cluster star model Observational hints from SM?

17 Photospheric radius expansion in 4U 1746-37 Constraints by PRE bursts of 4U 1746-37, on the assumption that the touchdown flux corresponded to L Edd, and the obscure effect is included. Li, et al. (ApJ, 2015) Compact stars: low-mass pulsar-like star? Observational hints from SM? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

18 Nucita et al. (2014) H-like Ly-α Lines at E/eV : {10.2, 40.8, 91.8, 163.2, 255, 367.2, 500,., 826.2, 1020, 1234.2, 1468.8, 1723.8, 1999.2, 2295, 2611.2, 2947.8, 3304.8, 3682.2, 4080,...} The puzzling symbiotic X-ray system 4U 1700+24

19 1.Red-shift: z ~ 0.009! 2.X-ray black body radiation area (A 1/2 ~ 10-10 2 m) reduce as L x decreases. 3.The mass function via by observing the G-type red giant company is only f o ~ 10 -5 M ⊙ ! ⇒ All 3 could be understood if M compact is only ~ 10 -2 M ⊙ unless geometrically fine-turning. Observational hints from SM? 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

20 To find clear observational evidence by  PSR mass measurements (M)  PSR moment of inertia measurements (I)  Discovering fastest spinning PSRs (P)  Magnetospheric activity (pulse-profile) Observational hints from SM? future… 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

21 未来大型天文设备例一: 地面射电 FAST SKA

22 脉冲星科学被凝练为核心课题之一  香山会议 “S21” 确定中国 SKA 科学 “2+1” 战略 “2”= HI 和 PSR “1”= 其他科学 SKA“SRP” 未来大型天文设备例一: 地面射电

23 未来大型天文设备例二: 空间高能 + = HXMT  XTP eXTP : 1 奇 2 星 3 极端

24

25 Summary Strange Matter: bigger is diff.! Observational hints from SM? Conclusions 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

26 Conclusions Although normal micro-nuclei are 2-flavour symmetric, we argue that 3-flavour symmetry would be restored in macro/gigantic-nuclei compressed by gravity during a supernova. Strange matter is conjectured to be condensed matter of 3-flavour quark-clusters, and future advanced facilities (FAST/SKA, HXMT/eXTP) would provide clear evidence for strange stars. THANKS! 3-f Matter http:// www.phy.pku.edu.cn/~xurenxin/ R. X. Xu

Download ppt "三味大原子核 & SKA 与 eXTP 3-f Matter R. X. Xu 徐仁新 ( ) “ 中子星与核天体物理 ” 2015 年 12 月 20 日;厦门大学天文学系."

Similar presentations

The atom and its nucleus

The atom and its nucleus
Questions and Probems. Matter inside protoneutron stars Hydrostatic equilibrium in the protoneutron star: Rough estimate of the central pressure is: Note.

Questions and Probems. Matter inside protoneutron stars Hydrostatic equilibrium in the protoneutron star: Rough estimate of the central pressure is: Note.
HL-3 May 2006Kernfysica: quarks, nucleonen en kernen1 Outline lecture (HL-3) Structure of nuclei NN potential exchange force Terra incognita in nuclear.

HL-3 May 2006Kernfysica: quarks, nucleonen en kernen1 Outline lecture (HL-3) Structure of nuclei NN potential exchange force Terra incognita in nuclear.
Supernovae and nucleosynthesis of elements > Fe Death of low-mass star: White Dwarf White dwarfs are the remaining cores once fusion stops Electron degeneracy.

Supernovae and nucleosynthesis of elements > Fe Death of low-mass star: White Dwarf White dwarfs are the remaining cores once fusion stops Electron degeneracy.
Ilona Bednarek Ustroń, 2009 Hyperon Star Model.

Ilona Bednarek Ustroń, 2009 Hyperon Star Model.
Strangeness barrierhttp://vega.bac.pku.edu.cn/rxxu R. X. Xu Renxin Xu School of Physics, Peking University ( ) 1 st bilateral meeting on “Quark and Compact.

Strangeness barrierhttp://vega.bac.pku.edu.cn/rxxu R. X. Xu Renxin Xu School of Physics, Peking University ( ) 1 st bilateral meeting on “Quark and Compact.
第九章 重积分 返回 高等数学( XAUAT ) 典型例题 重点难点 练习题解答 习题课结构 高等数学( XAUAT ) 一、本章的重点、难点、此次 习题课达到的目的 重点:二重积分、三重积分的计算。 难点:二从重积分、三重积分计算中坐标系的选择,积分 次序的选择与定限 习题课达到的目的:熟练掌握二重积分的计算(直角坐标、

第九章 重积分 返回 高等数学( XAUAT ) 典型例题 重点难点 练习题解答 习题课结构 高等数学( XAUAT ) 一、本章的重点、难点、此次 习题课达到的目的 重点:二重积分、三重积分的计算。 难点:二从重积分、三重积分计算中坐标系的选择,积分 次序的选择与定限 习题课达到的目的:熟练掌握二重积分的计算(直角坐标、
在近年的高考地理试题中,考查地球上 两点间最短航线的方向问题经常出现,由于 很多学生对这类问题没有从本质上搞清楚, 又缺乏空间想象能力,只是机械地背一些结 论,造成解这类题目时经常出错。 地球上两点间的最短航线方向问题.

在近年的高考地理试题中,考查地球上 两点间最短航线的方向问题经常出现,由于 很多学生对这类问题没有从本质上搞清楚, 又缺乏空间想象能力,只是机械地背一些结 论,造成解这类题目时经常出错。 地球上两点间的最短航线方向问题.
P461 - Nuclei I1 Properties of Nuclei Z protons and N neutrons held together with a short-ranged force  gives binding energy P and n made from quarks.

P461 - Nuclei I1 Properties of Nuclei Z protons and N neutrons held together with a short-ranged force  gives binding energy P and n made from quarks.
1 Nuclear Physics 1 Section 11-1,2. 2 Electron Pressure From the total energy of a free electron gas we can calculate the electron pressure using.

1 Nuclear Physics 1 Section 11-1,2. 2 Electron Pressure From the total energy of a free electron gas we can calculate the electron pressure using.
BASIC CONCEPTS.  Summary-1  The net nuclear charge in a nuclear species is equal to + Ze, where Z is the atomic number and e is the magnitude.

BASIC CONCEPTS.  Summary-1  The net nuclear charge in a nuclear species is equal to + Ze, where Z is the atomic number and e is the magnitude.
2015-5-202 (1) 黑洞的基本物理 (2) 解释 AGN 的连续谱辐射的产生机制 UV - optical IR Lecture 3.

(1) 黑洞的基本物理 (2) 解释 AGN 的连续谱辐射的产生机制 UV - optical IR Lecture 3.
White Dwarfs and Neutron Stars White dwarfs –Degenerate gases –Mass versus radius relation Neutron stars –Mass versus radius relation –Pulsars, magnetars,

White Dwarfs and Neutron Stars White dwarfs –Degenerate gases –Mass versus radius relation Neutron stars –Mass versus radius relation –Pulsars, magnetars,
Symmetry energy in the era of advanced gravitational wave detectors Hyun Kyu Lee Hanyang University Heavy Ion Meeting 20313-05, Asan Science Hall, Korea.

Symmetry energy in the era of advanced gravitational wave detectors Hyun Kyu Lee Hanyang University Heavy Ion Meeting , Asan Science Hall, Korea.
Pulsars – progress and puzzles 1 Jocelyn Bell Burnell University of Oxford Astrophysics & Mansfield College.

Pulsars – progress and puzzles 1 Jocelyn Bell Burnell University of Oxford Astrophysics & Mansfield College.
HistCite 结果分析示例 罗昭锋. By:SC09010041 可能原因:文献年度过窄,少有相互引用.

HistCite 结果分析示例 罗昭锋. By:SC 可能原因:文献年度过窄,少有相互引用.
核子结构的 “ 新 ” 图像 陈相松 四川大学 华中科技大学. 提要 核子结构研究的目标 终极目标与阶段性目标 核子结构图像的 “ 演化 ” : 原始图像、 “ 标准 ” 图像、 “ 新 ” 图像 [1]Phys.Rev.Lett.100:032002(2008) [2]Phys.Rev.Lett.103:062001(2009)

核子结构的 “ 新 ” 图像 陈相松 四川大学 华中科技大学. 提要 核子结构研究的目标 终极目标与阶段性目标 核子结构图像的 “ 演化 ” : 原始图像、 “ 标准 ” 图像、 “ 新 ” 图像 [1]Phys.Rev.Lett.100:032002(2008) [2]Phys.Rev.Lett.103:062001(2009)
第二章 质点组力学 质点组:许多(有限或无限)相 互联系的质点组成的系统 研究方法: 1. 分离体法 2. 从整体考虑 把质点的三个定理推广到质点组.

第二章 质点组力学 质点组:许多(有限或无限)相 互联系的质点组成的系统 研究方法: 1. 分离体法 2. 从整体考虑 把质点的三个定理推广到质点组.
分析化学与无机化学中溶液 pH 值计算的异同比较 谢永生 02081023.  分析化学是大学化学系的一门基础课,课 时较少,其内容主要是无机物的化学分析。 分析化学是以无机化学作为基础的,我们 都是在已掌握一定的无机化学知识后才学 习分析化学 。所以在分析 化学的学习中会 重复许多无机化学内容,造成学习没有兴.

分析化学与无机化学中溶液 pH 值计算的异同比较 谢永生  分析化学是大学化学系的一门基础课,课 时较少,其内容主要是无机物的化学分析。 分析化学是以无机化学作为基础的,我们 都是在已掌握一定的无机化学知识后才学 习分析化学 。所以在分析 化学的学习中会 重复许多无机化学内容,造成学习没有兴.
P460 - Quan. Stats. III1 Nuclei Protons and neutrons in nuclei separately fill their energy levels: 1s, 1p, 1d, 2s, 2p, 2d, 3s…………… (we’ll see in 461 their.

P460 - Quan. Stats. III1 Nuclei Protons and neutrons in nuclei separately fill their energy levels: 1s, 1p, 1d, 2s, 2p, 2d, 3s…………… (we’ll see in 461 their.

Similar presentations

Ads by Google