Event calendar file
11-15 September 2017
Mexico/General timezone
- ismd2017@nucleares.unam.mx
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Collectivity in high energy collisions: jets, flow and other aspects (II)
Date:
14 Sep 11:25 - 13:30
Conveners
-
- Jorge Noronha, Bjorn Schenke
- Chairperson: irais Bautista
Timetable | Contribution List
Displaying 5
contributions
out of
5
Relativistic heavy-ion collisions provide an optimal test bed to study bulk and collective properties of hot and dense nuclear matter above the
QCD critical point where hadrons melt to form a quark-gluon plasma. Simulations of the collisions, which couple relativistic hydrodynamics to microscopic transport models, allow theorists to recreate the full spacetime evolution of the events and determin
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Presented by Mr. Scott MORELAND
on
14/9/2017
at
17:15
Collectivity, as interpreted to mean flow of a dense medium in high-energy nucleus-nucleus (A-A) collisions and described by hydrodynamics, has recently been attributed also to smaller collision systems -- p-A and even p-p collisions -- based on certain analysis of LHC data. However, alternative analysis methods reveal that some data features attributed to flows are actually manifestations of mini
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Presented by Prof. Thomas TRAINOR
on
14/9/2017
at
12:40
The azimuthal anisotropies of particle yields observed in relativistic
heavy ion collisions have been traditionally considered as a strong
evidence of the
formation on a deconfined quark-gluon plasma produced in these collisions.
However multiple recent measurements in $pp$ and $p$/D/He+A collisions
show similar features as those observed in A+A Collisions, indicating
the possibility of the
... More
Presented by Dr. Soumya MOHAPATRA
on
14/9/2017
at
16:25
The quark-gluon plasma (QGP) created in high energy collisions of large nuclei (e.g., AuAu or PbPb) has been found to exhibit strong collective behavior as a nearly perfect liquid, which flows with little frictional resistance or viscosity. I will review latest experimental results on collective flow in heavy ion collisions at RHIC and the LHC, and discuss their implications to our understanding o
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Presented by Prof. Sandra S. PADULA
on
14/9/2017
at
18:05
The azimuthal anisotropies of particle yields observed in relativistic
heavy-ion collisions have been traditionally considered as a strong
evidence of the formation on a deconfined quark-gluon plasma produced
in these collisions. However multiple recent measurements from the
ATLAS Collaboration in $pp$ and $p$+Pb
systems show similar features as those observed in A+A collisions,
indicating t
... More
Presented by Dr. Adam TRZUPEK
on
14/9/2017
at
16:50
