Recorded video location for Romatschke lectures (Zoom link inside!)

Heinz, Ulrich heinz.9 at osu.edu
Mon Oct 28 18:43:33 EDT 2019 

Dear all:

The recording of Paul Romatschke’s lecture today can be accessed and downloaded from
https://www.dropbox.com/sh/du049jy3jk7d4fr/AADRTjA5B_17kSGpEqTVMRJua?dl=0

This is probably not a permanent location, so please download the file (about 300MB) if you want to keep it.

The four remaining lectures (see below) will be stored in the same directory.

See you again tomorrow, in person or on ZOOM: https://osu.zoom.us/j/964518492 !

Cheers,
Uli

On Oct 25, 2019, at 3:07 PM, Zhang, Xilin via physics-hepseminar <physics-hepseminar at lists.osu.edu<mailto:physics-hepseminar at lists.osu.edu>> wrote:

Dear all,

Just to remind you the OSU NP seminar will have a special lecture series---5 lectures, 90 mins. each---on modern hydrodynamics, from Monday to Friday in the next week. The speaker is Professor Paul Romatschke from U. of Colorado (https://www.colorado.edu/physics/paul-romatschke).

The lectures will be broadcast through ZOOM. You can join it  using https://osu.zoom.us/j/964518492 .

The schedule:
Monday, 2:00pm-3:30pm (PRB 1080)
Tuesday, 12:45pm-2:15pm (PRB 1080)
Wednesday, 2:00pm-3:30pm (PRB 1080)
Thursday, 12:45pm-2:15pm (PRB 1080)
Friday, 1:00-2:30pm (PRB 4138)

Note multiple time and locations.

The lecture info:

Title: Relativistic Fluid Dynamics Out of Equilibrium

Abstract: In standard textbooks, fluid dynamics is often introduced as a near-equilibrium approximation to classical kinetic theory. Recent advances, both in theory for out-of-equilibrium quantum field theories and experimental data from high energy colliders, have taught us that the textbooks are wrong: fluid dynamics quantitatively applies in out-of-equilibrium, and highly quantum-mechanical, situations. In these lectures, I will discuss how modern out-of-equilibrium fluid dynamics is set up, how it relates to familiar microscopic approaches such as kinetic theory and gauge/gravity duality, and how and when it breaks down. If time allows, I'll also mention hydrodynamics result for high-energy nuclear collisions at the LHC as an application of this out-of-equilibrium fluid dynamics framework.




Regards,

Xilin
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