Phenomenology of the Quark Gluon Plasma by Rajeev Bhalerao

Phenomenology of the Quark Gluon Plasma by Rajeev Bhalerao

International Centre for Theoretical Sciences via YouTube Direct link

However, the reality is not so simple. Initial geometry is not smooth. Why?

13 of 58

13 of 58

However, the reality is not so simple. Initial geometry is not smooth. Why?

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Phenomenology of the Quark Gluon Plasma by Rajeev Bhalerao

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  1. 1 Quark-Gluon Plasma is the smallest, hottest, densest,
  2. 2 Meaning of "the Most Perfect Fluid" ..... Fig : Roy Lacey
  3. 3 Recreating the "Early Universe" in the Lab
  4. 4 Fundamental Questions
  5. 5 Lattice QCD Results for EOS ... HotQCD Collab 2014
  6. 6 Lattice QCD Results for EOS contd.
  7. 7 QCD Phase Diagram schematic
  8. 8 The Big Idea
  9. 9 Ultrarelativistic Nucleus-Nucleus Collisions Various Stages
  10. 10 Wealth of Data
  11. 11 How to Simulate the Entire Collision History?
  12. 12 Stage 1: From Collision to Formation of QGP
  13. 13 However, the reality is not so simple. Initial geometry is not smooth. Why?
  14. 14 Event-to-event fluctuations in nucleon/parton positions
  15. 15 Stage 1: Preeqlbm or Prehydrodynamication Stage
  16. 16 A Typical Event at the end of Stage !
  17. 17 Characterization of the State at the End of Stage I
  18. 18 First Three Harmonics
  19. 19 More Precise Characterization of the Initial State
  20. 20 More Precise Characterization of the Initial State contd.
  21. 21 Spatial profiles of the energy-momentum tensor
  22. 22 How to Simulate the Entire Collision History? Stage II
  23. 23 Stage II: Hydrodynamic Evolution
  24. 24 Fluid Dynamics contd.
  25. 25 Perfect Fluid Hypothetical
  26. 26 Imperfect fluid Ideal fluid?
  27. 27 Zeroth-, First-, Second-Order Hydrodynamics
  28. 28 Basic idea of causal dissipative hydro
  29. 29 Basic idea of causal dissipative hydro contd.
  30. 30 What are Transport Coefficients?
  31. 31 Relativistic Fluid-Dynamic Equations contd.
  32. 32 Hydro Plays A Central Role In Understanding the Soft Sector of Relativistic Heavy-ion Collisions.
  33. 33 Input for Stage III
  34. 34 Stage III
  35. 35 The Modern Flow Picture
  36. 36 The Modern Flow Picture contd.
  37. 37 Importance of the Anisotropic or Azimuthal Flow
  38. 38 Extraction of Shear Viscosity ... Gale et al PRL 2013
  39. 39 Ridges in pPb and PbPb collisions at LHC
  40. 40 Ridge in pp collisions
  41. 41 Ridge: One of the key experimental pieces of evidence for the strong collective behaviour comparable to a fluid.
  42. 42 Ridge and Shoulder - Explanation
  43. 43 More Precise Characterization of the Final Sate
  44. 44 Correlations bet. V2, V4 and V2, V3 ... Pb-Pb, 2.76 TeV, PRL 2016
  45. 45 Event-Plane Correlators
  46. 46 Some Recent Developments . .
  47. 47 Confronting Hydrodynamic Predictions with Xe-Xe Data
  48. 48 Confronting state-of-the-art hydrodynamic
  49. 49 Some Recent Developments in Relativistic Hydrodynamics
  50. 50 Hydrodynamic Attractor
  51. 51 Various Sources of Anisotropy ... M. Strickland, 1807.0719
  52. 52 Standard Model of URHICs
  53. 53 The Big Bang and the Little Bang
  54. 54 Back-up Slides
  55. 55 The Big Bang and the Little Bang contd.
  56. 56 Take-Home Message / Open Questions
  57. 57 Bibliography-2
  58. 58 Further reading ...

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