Thomas Klähn D. Blaschke R. Łastowiecki F. Sandin 20.5.2011Thomas Klähn – Three Days on Quarkyonic Island.

Slides:

Advertisements

Similar presentations

Stellar Structure Section 6: Introduction to Stellar Evolution Lecture 18 – Mass-radius relation for black dwarfs Chandrasekhar limiting mass Comparison.

Advertisements

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

The Neutron Star Equation of State- Electromagnetic Observations Frits Paerels Columbia University GWPAW, UW Milwaukee, January 26, 2011.

Weighing in on Neutron Stars Varun Bhalerao California Institute of Technology Collaborators: F. Harrison, S. Kulkarni, Marten van Kerkwijk, and others.

Discovery of a Highly Eccentric Binary Millisecond Pulsar in a Gamma-Ray- Detected Globular Cluster Megan DeCesar (UWM) In collaboration with Scott Ransom.

Hyperon Suppression in Hadron- Quark Mixed Phase T. Maruyama (JAEA), S. Chiba (JAEA), H.-J. Schhulze (INFN-Catania), T. Tatsumi (Kyoto U.) 1 Property of.

Hyperon-Quark Mixed Phase in Compact Stars T. Maruyama* (JAEA), T. Tatsumi (Kyoto U), H.-J. Schulze (INFN), S. Chiba (JAEA)‏ *supported by Tsukuba Univ.

Nuclear Physics from the sky Vikram Soni CTP. Strongly Interacting density (> than saturation density) Extra Terrestrial From the Sky No.

Ilona Bednarek Ustroń, 2009 Hyperon Star Model.

Compact neutron stars Theory & Observations Hovik Grigorian Yerevan State University Summer School Dubna – 2012.

Cold, dense quark matter NJL type models and the need to go beyond THOMAS KL ÄHN Collaborators: D. Zablocki, J.Jankowski, C.D.Roberts, R.Lastowiecki, D.B.Blaschke.

Internal structure of Neutron Stars. Artistic view.

Recent surprises from observations of Compact Stars Thanks to ‘cool’ coauthors: Hovik Grigorian, Fridolin Weber, Dima Voskresensky David Blaschke (Wroclaw.

Cooling of Compact Stars with Color Superconducting Quark Matter Tsuneo Noda (Kurume Institute of Technology) Collaboration with N. Yasutake (Chiba Institute.

Thomas Klähn D. Blaschke R. Łastowiecki F. Sandin Sept 2, 2011Thomas Klähn – Symposium on NeD, Heraklion.

Symmetry energy in the era of advanced gravitational wave detectors Hyun Kyu Lee Hanyang University Heavy Ion Meeting , Asan Science Hall, Korea.

Metastability of Hadronic Compact Stars I. Vidaña & I. Bombaci, P. K. Panda, C. Providência “The Complex Physics of Compact Stars” Ladek Zdroj, Poland,

Thermal Evolution of Rotating neutron Stars and Signal of Quark Deconfinement Henan University, Kaifeng, China Miao Kang.

Has the critical temperature of the QCD phase transition been measured ?

Constraining neutron star properties with perturbative QCD Aleksi Vuorinen University of Helsinki University of Oxford Main reference: Kurkela,

Equation of State of Neutron-Rich Matter in the Relativistic Mean-Field Approach Farrukh J. Fattoyev My TAMUC collaborators: B.-A. Li, W. G. Newton My.

Timing Relativistic Binary Pulsars to test Gravitation and measure NS masses Paulo C. C. Freire Arecibo Observatory / Cornell University.

Quadrupole moments of neutron stars and strange stars Martin Urbanec, John C. Miller, Zdenek Stuchlík Institute of Physics, Silesian University in Opava,

Internal structure of Neutron Stars. Artistic view.

Recent surprises from observations of Compact Stars Thanks to ‘cool’ coauthors: Hovik Grigorian, Fridolin Weber, Dima Voskresensky David Blaschke (Wroclaw.

1 On the importance of nucleation for the formation of quark cores inside compact stars Bruno Werneck Mintz* Eduardo Souza Fraga Universidade Federal do.

In-medium hadrons and chiral symmetry G. Chanfray, IPN Lyon, IN2P3/CNRS, Université Lyon I The Physics of High Baryon Density IPHC Strasbourg, september.

Dense Stellar Matter Strange Quark Matter driven by Kaon Condensation Hyun Kyu Lee Hanyang University Kyungmin Kim HKL and Mannque Rho arXiv:

Neutron stars swollen under strong magnetic fields Chung-Yeol Ryu Soongsil University, Seoul, Korea Vela pulsar.

Cooling of CasA With&without Quark Matter CSQCD-IV- Prepow my ‘cool’ co-authors: D. Blaschke, D. Voskresensky Hovik Grigorian : Yerevan State University,

Equation Of State and back bending phenomenon in rotating neutron stars 1 st Astro-PF Workshop – CAMK, 14 October 2004 Compact Stars: structure, dynamics,

Study of the QCD Phase Structure through High Energy Heavy Ion Collisions Bedanga Mohanty National Institute of Science Education and Research (NISER)

Neutron Star Binaries and Related Astrophysical Issues Chang-Hwan 1.

Current Status of Neutron Stars: Astrophysical Point of View Chang-Hwan 1.

J.E. Horvath, IAG – USP São Paulo, Brazil with O. Benvenuto & M.A. De Vito (La Plata) Why "black widow" pulsar systems are important for the quest of neutron.

Compact Stars as Sources of Gravitational Waves Y. Kojima (Hiroshima Univ.) 小嶌康史 ( 広島大学理学研究科 ) 第 3 回 TAMA シンポジュウム（柏） 2003 年 2 月 6 － 7 日.

Hadron-Quark phase transition in high-mass neutron stars Gustavo Contrera (IFLP-CONICET & FCAGLP, La Plata, Argentina) Milva Orsaria (FCAGLP, CONICET,

Many-body theory of Nuclear Matter and the Hyperon matter puzzle M. Baldo, INFN Catania.

Quark deconfinement in compact stars and GRBs structure Alessandro Drago University of Ferrara.

Some Questions about QGP July Basic Question Has Quark-Gluon Plasma been observed? or When and How will it be observed? The answer depends on the.

Nuclear Isovector Equation-of-State (EOS) and Astrophysics Hermann Wolter Dep. f. Physik, LMU Topics: 1.Phase diagram of strongly interacting matter and.

Neutron star masses: dwarfs, giants and neighbors Sergei Popov (SAI MSU) Collaborators: M. Prokhorov H. Grigorian D. Blaschke.

Operated by Jefferson Science Association for the U.S. Department of Energy Thomas Jefferson National Accelerator Facility Page 1 Check directly vs data.

Hybrid proto-neutron stars within a static approach. O. E. Nicotra Dipartimento di Fisica e Astronomia Università di Catania and INFN.

Roy A. Lacey, Stony Brook University; QM11, Annecy, France 2011.

Symmetry energy in the neutron star equation of state and astrophysical observations David E. Álvarez C. Sept 2013 S. Kubis, D. Blaschke and T. Klaehn.

Proton Mass and EoS for Compressed Baryonic Matter ATHIC 14/11/12 Mannque Rho (Saclay and Hanyang)

Maximum Mass of Neutron Stars with Hadron-Quark Transient Core □Introduction □Universal 3-body force □Approach by 3-Window Model □Some results

Compact Stars With a Dyson- Schwinger Quark Model 1 陈欢 Collaborate with 魏金标（ CUG ）, M. Baldo, F. Burgio and H.-J. Schulze （ INFN ）. 2015“ 中子星与核天体物理 ”

Neutron Stars and the high density Equation of State T.Klähn (Main) Collaborators: D.Blaschke (Wrocław), H.Chen (Peking), C.D. Roberts (ANL), F.Sandin.

Eccentric Binary Millisecond Pulsars Paulo C. C. Freire arXiv: v1.

The nuclear EoS at high density

Neutron star radii and the EOS of neutron-rich matter

Bayesian analysis for hybrid star

Yerevan State University

Microscopic Equations of State

EOS discussion.

Stellar core collapse with QCD phase transition

MERGING REVEALS Neutron Star INNARDS

Hall A Collaboration Meeting

UCLA Nuclear Physics Seminar

Check directly vs data That is, apply new effective force directly to calculate nuclear properties using Hartree-Fock (as for usual well known force)

Phase transitions in neutron stars with BHF

Internal structure of Neutron Stars

Lecture1. Structure of Neutron Stars

The equations of state for neutron matter, strange and non-strange hadronic matter in the chiral SU(3) quark mean-field model are applied in the study.

Cooling of Neutron Stars

Neutron Star masses.

Bayesian analysis for hybrid star

Effects of the φ-meson on the hyperon production in the hyperon star

Presentation transcript:

Thomas Klähn D. Blaschke R. Łastowiecki F. Sandin Thomas Klähn – Three Days on Quarkyonic Island

Thomas Klähn – Three Days on Quarkyonic Island of the “CompStar School and Workshop” (Catania - May 3-12, 2011) The most exciting news of the last year: Mass of Pulsar J : Demorest et al., Nature 467, (2010 ) Rapid cooling of Cas A Heinke, Ho, Astrophys. J. Lett., 719, L167 (2010) Page, Prakash, Lattimer, Steiner, Phys.Rev.Lett.106: (2011)Blaschke, Grigorian, Prog.Part.Nucl.Phys. 59 (2007)

Thomas Klähn – Three Days on Quarkyonic Island of the “CompStar School and Workshop” (Catania - May 3-12, 2011) The most exciting news of the last year are: Mass of Pulsar J : P.Demorest et al., Nature 467, (2010) What are the consequences for the existence of quark matter in Compact Stars?

Thomas Klähn – Three Days on Quarkyonic Island ہ Binary system in Scorpius ہ 1200 parsecs from Earth ہ Neutron star with white dwarf companion ہ NS - millisecond pulsar (P=3.15 ms) ہ Time signal is getting delayed when passing near massive object. ہ General relativistic effect. ہ Size of the effect depends on the mass and inclination angle. ہ Pulse delay best to measure when pulsar is exactly behind companion

Thomas Klähn – Three Days on Quarkyonic Island ہ Binary system in Scorpius ہ 1200 parsecs from Earth ہ Neutron star with white dwarf companion ہ NS - millisecond pulsar (P=3.15 ms) ہ Recycled pulsar – accretion ہ Time signal is getting delayed when passing near massive object. ہ General relativistic effect. ہ Size of the effect depends on mass and inclination angle. ہ Pulse delay best to measure when pulsar is exactly behind companion

Thomas Klähn – Three Days on Quarkyonic Island Observational Results: ہ inclination angle ہ companion mass of 0.5 solar masses. ہ companion is a helium-carbon-oxygen white dwarf

Thomas Klähn – Three Days on Quarkyonic Island Observational Results: ہ inclination angle ہ companion mass of 0.5 solar masses. ہ companion is a helium-carbon-oxygen white dwarf ہ neutron star mass: WORLD (universal? intergalactic?) RECORD! P.Demorest et al., Nature 467, (2010) ہ Highest well known mass of NS before:

Thomas Klähn – Three Days on Quarkyonic Island Nuclear matter far beyond saturation density is not well understood: Klähn et al., Phys.Rev. C74 (2006)

Thomas Klähn – Three Days on Quarkyonic Island Large neutron star masses (about and more) provide a serious constraint. Klähn et al., Phys.Rev. C74 (2006)

Thomas Klähn – Three Days on Quarkyonic Island Klähn et al., Phys.Rev. C74 (2006)

Thomas Klähn – Three Days on Quarkyonic Island

Thomas Klähn – Three Days on Quarkyonic Island

Thomas Klähn – Three Days on Quarkyonic Island INTERESTING!!! If UB confirmed unambiguously... HIC can constrain maximum NS mass!... which we estimated quite a time ago: Klähn et al., Phys.Rev. C74 (2006)

Thomas Klähn – Three Days on Quarkyonic Island Can QM be present in PSR J1614? Presently, one cannot know whether quark matter exists in PSR J1614. However, if there is NO quark matter in this object, it is in no other NS we know. Why is this so? The more massive a NS is the higher is the central density. Would clarifying the question of QM in NS affect experiments which explore the QCD phase transition? It certainly would! And more than this… we would LEARN a lot!

Thomas Klähn – Three Days on Quarkyonic Island

Thomas Klähn – Three Days on Quarkyonic Island NOT HEAVY ENOUGH

Thomas Klähn – Three Days on Quarkyonic Island NOT HEAVY ENOUGH TROUBLE WITH FLOW

Thomas Klähn – Three Days on Quarkyonic Island NOT HEAVY ENOUGH TROUBLE WITH FLOW Purely nuclear EoS

Thomas Klähn – Three Days on Quarkyonic Island One of the big unknowns when describing quark matter in NSs is the nuclear equation of state. Favorable: Nucleons (…, diquarks, mesons) as quark correlations

Thomas Klähn – Three Days on Quarkyonic Island Problem is attacked in vacuum Faddeev Equations Baryons as composites of confined quarks and diquarks q-propagator, d-propagator, Bethe-Salpeter-Ampl., Faddeev Ampl. Cloet et al. (2008) Current quark mass dependence of nucleon magnetic moments and radii Eichmann et al. (2008) The nucleon as a QCD bound state in a Faddeev approach. Bethe Salpeter Equations P. Maris (2002) Effective masses of diquarks. Bhagwat et al. (2007) Flavour symmetry breaking and meson masses

Thomas Klähn – Three Days on Quarkyonic Island Problem is attacked in vacuum Faddeev Equations Baryons as composites of confined quarks and diquarks q-propagator, d-propagator, Bethe-Salpeter-Ampl., Faddeev Ampl. Cloet et al. (2008) Current quark mass dependence of nucleon magnetic moments and radii Eichmann et al. (2008) The nucleon as a QCD bound state in a Faddeev approach. Bethe Salpeter Equations P. Maris (2002) Effective masses of diquarks. Bhagwat et al. (2007) Flavour symmetry breaking and meson masses But barely explored in medium

Thomas Klähn – Three Days on Quarkyonic Island One of the big unknowns when describing quark matter in NSs is the nuclear equation of state. Favorable: Nucleons (… and diquarks … and mesons!!!) as quark correlations In medium… this is a challenge we have to face now and in the future. Work around: model nuclear and free quark matter EoS independently construct a phase transition A phase transition softens the equation of state!

Thomas Klähn – Three Days on Quarkyonic Island

One of the big unknowns when describing quark matter in NSs is the nuclear equation of state. Favorable: Nucleons (… and diquarks … and mesons!!!) as quark correlations In medium… this is a challenge we have to face now and in the future. Work around: model nuclear and quark matter independently construct a phase transition A phase transition softens the equation of state! VERY GOOD!!! Solves some problems Thomas Klähn – Three Days on Quarkyonic Island

One of the big unknowns when describing quark matter in NSs is the nuclear equation of state. Favorable: Nucleons (… and diquarks … and mesons!!!) as quark correlations In medium… this is a challenge we have to face now and in the future. Work around: model nuclear and quark matter independently construct a phase transition A phase transition softens the equation of state! VERY GOOD!!! Solves some problems Thomas Klähn – Three Days on Quarkyonic Island Doesn’t look very systematic

Thomas Klähn – Three Days on Quarkyonic Island

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n PSR J1614

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n PSR J1614 M max increases

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n PSR J1614 M max increases

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n PSR J1614 M max increases Massive Quark Cores are HERE

Thomas Klähn – Three Days on Quarkyonic Island no stable hybrids PT at too large n Quark Stars? PT at too small n PSR J1614 Comparison with sym. matter: QM in PSR J1614? Yes -> No -> It is remarkable that this critical value is rather constant! Still: For this model… M max increases Massive Quark Cores are HERE

Thomas Klähn – Three Days on Quarkyonic Island Compact Stars provide increasingly severe constraints on the cold EoS In combination with HIC data it might soon be possible to pin the EoS Attack EoS already now from both sides and point out model inconsistencies Example here: PSR J1614 vs Flow = EoS neither too soft nor too stiff Quark matter in compact stars is NOT ruled out by large masses Transport properties and all aspects of temporal evolution will be important Consistent approaches are required (A.Sedrakian!) We expect an increase of NS data by an order of magnitude Good times ahead!