Summary and Outlook

1. Summary and Outlook Supplement Xin-Nian Wang (LBNL) RBRC workshop on jet correlations • Energy dependence of jet quenching • Azimuthal angle dependence of jet quenching • Hadrons correlations in jets • Dihadron fragmentation function • Jet cone structure • Heavy quark energy loss • Future of jet quenching March 11, 2005

2. From Theoretical Prediction Phys. Rev. Lett. 68, 1480 (1992) XNW and M. Gyulassy Gluon Shadowing and Jet Quenching in A+A Collisions at \sqrt{s}=200 AGeV

3. To the first hints of jet quenching

4. To explicit jet quenching Pedestal&flow subtracted

5. And medium modification W. Holtzman F. Wang

6. Theoretical development • Bjorken (82): elastic energy loss • Gyulassy & XNW (94) radiative energy loss • Zakharov (96), Baier et al (97) • Gyulassy-Levai-Vitev (00);Wiedemann (01); Guo-Wang (01) The field has matured. But do we understand what is really going on ?

7. Suppression of spectra at 63 GeV Less suppression but Similar to 200 GeV as predicted given no new physics happening: XNW Vitev Adil & Gyulassy

8. Energy Dependence of quenching D. d’Enterria, Hard Probes 2004 63 GeV

9. Effect of non-Abelian energy loss Eskola Honkanen Salgado Wiedemann Qun Wang & XNW nucl-th/0410079 DEg=DEq DEg=2DEq

10. Effect of non-Abelian energy loss D. d’Enterria, Hard Probes 2004

11. Reaction plane dependence of away-side

12. Reaction plane dependence of R_AA Df = 90° Df = 0° B. Cole, Hard Probes 2004

13. Hadron Correlations in jets Hadron-trigger fragmentation function: XNW, Phys. Lett. B579:299-308,2004 Away-side correlation: Modification of single hadron distribution inside a jet

14. Effect of radiated gluons Fragmentation of Gluon with a few GeV energy? Other medium Effects?

15. Abnormal angular distribution

16. Sonic Boom Casalderrey-Solana, Shuryak and Teaney Dumitru Linearize disturbance qM Trigger • Can hydro equation be applied to a few particles? • (2) Transverse expansion?

17. Background, background, … C. Gagliardi Pedestal

18. The Devil is in the details Voloshin Ying Guo Background subtraction Small number of particles!

19. Angular distribution of radiative gluons Induced Bremsstrahlung: Vitev Radiation in vacuum Further interaction of the radiated gluons with the medium?

20. What about DIS e+A? e- Jet quenching observed pT broadening of leading hadron or suppression of low pt hadrons: Dominance of leading hadrons from the jet with reduced energy Usefulness of dihadron distribution (fragmentation)

21. Di-hadron fragmentation function h1 h2 jet Majumder

22. Modification of the dihadron distribution STAR preliminary Pedestal&flow subtracted

23. Parton recombination Hwa; Fries Particle or parton correlations are not trivial

24. Parton recombination revisited h h 1-x’ 1-x x x’ q-qbar distribution in a jet Hwa & Yang

25. Modification due to recombination Majumder, E.Wang & XNW’04 Hwa &Yang Fries et al Greco&Ko h Single quark distribution 2-quark distribution

26. Future of Jet quenching STAR preliminary STAR preliminary g+jet correlation in Au+Au in run4? More accurate determination of initial Et

27. Modification for Heavy Quarks (1) Slow clock for formation time (2) Color factor (3) Dead cone effect DEQ<DEg, DEq Djordjevic & Gyulassy Zhang & XNW Armesto,Dainese, Salgado & Wiedemann Zhang & XNW

28. Charm quark Large charm quark Suppression? Hadronic scattering?

29. Light-heavy quark correlation • Charm quark as a trigger: • Distribution of radiative gluons • Sonic boom associated with a large pt charm quark • Jet physics at LHC: abundant

30. Summary • Beginning of jet tomography study • Details of modified fragmentation • Heavy quark fragmentation • Dihadron fragmentation • Jet-gamma events