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Workshop on QGP Phenomenology

26–31 May 2021
Europe/Berlin timezone

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Session

Second session

26 May 2021, 16:00

Conveners

Second session

  • Rob Pisarski (APS)

Second session

  • Behrad Taghavi (IPM)

Second session

  • Giorgio Torrieri (IFGW, Unicamp)

Second session

  • Matteo Buzzegoli (INFN)

Presentation materials

There are no materials yet.

  1. 29. Physical characteristics of glasma at very early times
    Alina Czajka (National Centre for Nuclear Research)
    26/05/2021, 16:00
  2. 6. Introduction to the CGC effective theory
    Renaud Boussarie (CPHT, École polytechnique)
    26/05/2021, 16:30
  3. 20. Event-by-event simulations of Pb+Pb collisions with anisotropic hydrodynamics
    Michael McNelis (Ohio State University)
    27/05/2021, 16:00
  4. 31. Collective behavior in rarely-interacting systems: time-dependent anisotropic flow coefficients
    Nina Kersting (Bielefeld University)
    27/05/2021, 16:30
  5. 19. Modelling Hydrodynamics
    Michał Spaliński
    27/05/2021, 17:00

    I will describe a recent addition to the family of causal and
    stable models of relativistic hydrodynamics. I will also address the wider question of how one can match such effective descriptions to underlying microscopic theories.

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  6. 14. Theory of spin hydrodynamics for ultra-relativistic heavy-ion collisions
    Mr Rajeev Singh (Institute of Nuclear Physics Polish Academy of Sciences)
    28/05/2021, 16:00
  7. 13. Quantum energy-density fluctuations
    Wojciech Florkowski (Jagiellonian University)
    28/05/2021, 16:30
  8. 22. General-relativistic viscous fluids
    Marcelo Disconzi
    31/05/2021, 16:00

    The discovery of the quark-gluon plasma that forms in heavy-ion collision experiments provides a unique opportunity to study the properties of matter under extreme conditions, as the quark-gluon plasma is the hottest, smallest, and densest fluid known to humanity. Studying the quark-gluon plasma also provides a window into the earliest moments of the universe, since microseconds after the Big...

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  9. 28. Is hydrodynamic stability enough?
    Lorenzo Gavassino
    31/05/2021, 16:45

    It is well known that relativistic hydrodynamic theories, to be "realistic", should be causal and stable. But stable with respect to what? The standard notion of stability one typically refers to is hydrodynamic stability, namely the requirement that on-shell perturbations away from the state of thermodynamic equilibrium remain bounded over time. I will argue that such a stability criterion is...

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