Slides for Bochum 2007. Evolution of Abundances D Be mass fraction 0.

Slides:

Advertisements

Similar presentations

Hard Photon Production in a Chemically Equilibrating QGP at Finite Baryon Density Zejun He Zejun He Shanghai Institute of Applied Physics Research Chinese.

Advertisements

The Color Glass Condensate and RHIC Phenomenology Outstanding questions: What is the high energy limit of QCD? How do gluons and quarks arise in hadrons?

Axel Drees, University Stony Brook EINN, Milos Greece, Sep Energy Loss in Dense Media “Jet Quenching” PHENIX PRL 88 (2002) One of the first.

Motivation One of the major findings at the Relativistic Heavy Ion Collider (RHIC) is the suppression of the highly energetic particles which raises the.

The speed of sound in a magnetized hot Quark-Gluon-Plasma Based on: Neda Sadooghi Department of Physics Sharif University of Technology Tehran-Iran.

Particle Physics and Cosmology Dark Matter. What is our universe made of ? quintessence ! fire, air, water, soil !

Wolfgang Cassing CERN, Properties of the sQGP at RHIC and LHC energies.

Investigations on Jet Evolution in (3+1)d Ideal Hydrodynamics Barbara Betz, Dirk Rischke, Horst Stöcker, Giorgio Torrieri Institut für Theoretische Physik.

Trento 05 Shuryak 1 Dileptons from Strongly Coupled quark-gluon plasma (sQGP) Edward Shuryak Department of Physics and Astronomy State University of New.

Luan Cheng (Institute of Particle Physics, Huazhong Normal University) I. Introduction II. Interaction Potential with Flow III. Flow Effects on Light Quark.

J. Goodman – May 2003 Quarknet Symposium May 2003 Neutrinos, Dark Matter and the Cosmological Constant The Dark Side of the Universe Jordan Goodman University.

A derivation of the source term induced by a fast parton from the quark energy-momentum tensor Bryon Neufeld, LANL Winter Workshop on Nuclear Dynamics.

Finite Size Effects on Dilepton Properties in Relativistic Heavy Ion Collisions Trent Strong, Texas A&M University Advisors: Dr. Ralf Rapp, Dr. Hendrik.

Sonic Mach Cones Induced by Fast Partons in a Perturbative Quark-Gluon Plasma [1] Presented by Bryon Neufeld (of Duke University) on March 20 th 2008 in.

Generalized Entropy and Transport Coefficients of Hadronic Matter Azwinndini Muronga 1,2 1 Centre for Theoretical Physics & Astrophysics Department of.

J. RuppertFocus talk on interactions between jets and medium #1 Focus talk on interactions between jets and medium Jörg Ruppert Nuclear Theory, Duke University.

The conical flow Where the energy of quenched jets go? Edward Shuryak (with Jorge Casalderrey-Solana, Derek Teaney) Department of Physics and Astronomy,

GAUGE/GRAVITY, THERMALISATION AND ENERGY LOSS Why, when and how do we use gravity? Wilke van der Schee Supervisors: Gleb Arutyunov, Thomas Peitzmann, Koenraad.

AS2001 Chemical Evolution of the Universe Keith Horne 315a

STRING PERCOLATION AND THE GLASMA C.Pajares Dept Particle Physics and IGFAE University Santiago de Compostela CERN The first heavy ion collisions at the.

U N C L A S S I F I E D 7 Feb 2005 Studies of Hadronic Jets with the Two-Particle Azimuthal Correlations Method Paul Constantin.

Jet quenching and direct photon production F.M. Liu 刘复明 Central China Normal University, China T. Hirano 平野哲文 University of Tokyo, Japan K.Werner University.

Conical Flow induced by Quenched QCD Jets Jorge Casalderrey-Solana, Edward Shuryak and Derek Teaney, hep- ph/ SUNY Stony Brook.

1 Search for the Effects of the QCD Color Factor in High-Energy Collisions at RHIC Bedanga Mohanty LBNL  Motivation  Color Factors  Search for Color.

Jet Propagation and Mach Cones In (3+1)d Ideal Hydrodynamics Barbara Betz, Miklos Gyulassy, Dirk Rischke, Horst Stöcker and Giorgio Torrieri Quark Matter.

High Pt physics with TOF ALICE B.V.Zagreev ITEP

Understanding deconfinement: new spectroscopy at T>Tc Edward Shuryak Department of Physics and Astronomy State University of New York Stony Brook NY

A Lightning Review of Dark Matter R.L. Cooper

Theoretical Issues in Astro Particle Physics J.W. van Holten April 26, 2004.

Jet Physics in ALICE Mercedes López Noriega - CERN for the ALICE Collaboration Hot Quarks 2006 Villasimius, Sardinia - Italy.

Background introduction Model introduction Analysis method Results and discussions Conclusions G.L. Ma, S. Zhang, YGM et al., Phys Lett B 641, 362 (2006)

Jet Propagation & Mach Cone Evolution in (3+1)d Ideal Hydrodynamics Barbara Betz, Miklos Gyulassy, Dirk Rischke, Horst Stöcker and Giorgio Torrieri 05.

(Primordial Nucleosynthesis*) B. Kämpfer Research Center Rossendorf/Dresden & Technical University Dresden - Expanding Universe - Prior to Nucleosynthesis.

Hunting Medium Modifications of the Chiral Condensate B. Kämpfer Research Center Rossendorf/Dresden Technical University Dresden with S. Zschocke, R.

Physics of Dense Matter in Heavy-ion Collisions at J-PARC Masakiyo Kitazawa J-PARC 研究会、 2015/8/5 、 J-PARC.

The strongly coupled Quark-Gluon Plasma Edward Shuryak Department of Physics and Astronomy State University of New York Stony Brook NY USA.

U N C L A S S I F I E D Operated by the Los Alamos National Security, LLC for the DOE/NNSA Slide 0 Study of the Quark Gluon Plasma with Hadronic Jets What:

Hadronic interactions are strongly modified near the QCD critical point Edward Shuryak Department of Physics and Astronomy State University of New York.

Probing the properties of dense partonic matter at RHIC Y. Akiba (RIKEN) for PHENIX collaboration.

1 N. N. Ajitanand Nuclear Chemistry, SUNY Stony Brook 27 May 2008 AGS-RHIC Workshop 2008 Three Particle Correlations.

Radiative heavy quark energy loss in QCD matter Magdalena Djordjevic and Miklos Gyulassy Columbia University.

PPG067 Physics Statements Michael P. McCumber and Barbara Jacak August + September, 2006.

Heavy-Ion Physics - Hydrodynamic Approach Introduction Hydrodynamic aspect Observables explained Recombination model Summary 전남대 이강석 HIM

High-p T Particles and RHIC Paradigm of Jet Quenching Ahmed M. Hamed NN2012 The 11 th International Conference on Nucleus-Nucleus Collisions 1.

Hydrodynamic Flow from Fast Particles Jorge Casalderrey-Solana. E. V. Shuryak, D. Teaney SUNY- Stony Brook.

Strange Probes of QCD Matter Huan Zhong Huang Department of Physics and Astronomy University of California Los Angeles, CA Oct 6-10, 2008; SQM2008.

21 st WWND, W. Holzmann Wolf Gerrit Holzmann (Nuclear Chemistry, SUNY Stony Brook) for the Collaboration Tomographic Studies of the sQGP at RHIC: the next.

Quark Matter 2005, Budapest Xin-Nian Wang Lawrence Berkeley National Laboratory Jet and Leading Hadron Production.

Enke Wang (Institute of Particle Physics, Huazhong Normal University) I. Introduction II. Ineraction Potential with Flow III.Flow Effects on Light Quark.

Enke Wang (Institute of Particle Physics, Huazhong Normal University) I.Jet Quenching in QCD-based Model II.Jet Quenching in High-Twist pQCD III.Jet Tomography.

QM04 1/12/04M. Djordjevic 1 Heavy quark energy loss-Applications to RHIC Magdalena Djordjevic and Miklos Gyulassy Columbia University The Ter-Mikayelian.

Xin-Nian Wang/LBNL QCD and Hadronic Physics Beijing, June 16-20, 2005 Xin-Nian Wang 王新年 Lawrence Berkeley National Laboratory Jet Tomography of Strongly.

Collisional energy loss becomes probable André Peshier SUBATECH, Université de Nantes - Praha, 20 April

What have we learned from the RHIC experiments so far ? Berndt Mueller (Duke University) KPS Meeting Seoul, 22 April 2005.

Towards understanding the Quark-Gluon Plasma

Workshop on Modeling of the Parton-Hadron Phase Transition The Summary

Cyrille Marquet Columbia University

Workshop on the physics of HL-LHC, and perspectives at HE-LHC

Strange Probes of QCD Matter

dark matter Properties stable non-relativistic non-baryonic

QCD (Quantum ChromoDynamics)

STAR and RHIC; past, present and future.

Properties of the Quark-Gluon Plasma

برخورد یون های سنگین در LHC همایش یک روزه فیزیک LHCبا تاکید بر هیگز

Modification of Fragmentation Function in Strong Interacting Medium

Guo-Liang Ma Background introduction Model introduction

Y.Kitadono (Hiroshima ),

Heavy Ion Physics at RHIC: Expeprimental Status & outlook

Modified Fragmentation Function in Strong Interaction Matter

Theory on Hadrons in nuclear medium

Presentation transcript:

Slides for Bochum 2007

Evolution of Abundances D Be mass fraction 0.

1.

1.1

1.3

1.3‘

Hadrons = Excitations of QCD Ground State QCD ground state (vacuum) n,T  Mystery of Mass 2.

2.‘

Cosmic Concordance?  new physics beyond Standard Model? Xdimensions, more neutrinos, axions, SUSY particles, G(t),... WMAP

3.

4.

Glendenning, Fig. 3.5

Glendenning Fig. ?

Material v. D. Blaschke

Jena

5.

6.

7.1

7.2

8.

9.

9.a

10.

11.

12.

13.

14.

Hot Matter Radiates equilibrium: independent of microscopy hadrons in collision: 15.1

15.2

15.3

16.

16.a

16.1

16.2

16.4

16.3

17.1

17.2

17.3

17.4

17.5.1

17.6

17.7

17.8

17.9

Von Lisboa

18.

CB-TAPS: Trnka et al. 05 strong density dependence of combined 4-quark conds. PRL 05 also dim-8 contributions: norm. moment Thomas/Zschocke/BK 19.

* * On the Observation of Vacuum Birefringence hep-ph/ e+ e- analog to Stark & Zeeman antennas of QCD vacuum? HADES: 20.

Material not presented in Bochum

Sonic boom from quenched jets Casalderrey,ES,Teaney, hep-ph/ ; H.Stocker… the energy deposited by jets into liquid-like strongly coupled QGP must go into conical shock waves We solved relativistic hydrodynamics and got the flow picture If there are start and end points, there are two spheres and a cone tangent to both Wake effect or “sonic boom”