The Hot QCD White Paper: Exploring the Phases of QCD at RHIC and the LHC

Aaron Angerami (Columbia University); Abhijit Majumder (Wayne State University); Anthony Frawley (Florida State University); Barbara Jacak (University of California; Berkeley); David Morrison (Brookhaven National Laboratory); Gunther Roland (Massachusetts Institute of Technology); Helen Caines (Yale University); Jiangyong Jia (Stony Brook University); Joern Putschke (Wayne State University)

arxiv: 1502.02730 · v1 · pith:A3LAJSXPnew · submitted 2015-02-09 · ⚛️ nucl-ex · hep-ex· hep-lat· hep-ph· nucl-th

The Hot QCD White Paper: Exploring the Phases of QCD at RHIC and the LHC

Yasuyuki Akiba (RIKEN) , Aaron Angerami (Columbia University) , Helen Caines (Yale University) , Anthony Frawley (Florida State University) , Ulrich Heinz (Ohio State University) , Barbara Jacak (University of California , Berkeley) , Jiangyong Jia (Stony Brook University)

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Tuomas Lappi (Jyv\"askyl\"a University) Wei Li (Rice University) Abhijit Majumder (Wayne State University) David Morrison (Brookhaven National Laboratory) Mateusz Ploskon (Lawrence Berkeley National Laboratory) Joern Putschke (Wayne State University) Krishna Rajagopal (Massachusetts Institute of Technology) Ralf Rapp (Texas A&M University) Gunther Roland (Massachusetts Institute of Technology) Paul Sorensen (Brookhaven National Laboratory) Urs Wiedemann (CERN) Nu Xu (Lawrence Berkeley National Laboratory) W.A. Zajc (Columbia University)

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classification ⚛️ nucl-ex hep-exhep-lathep-phnucl-th

keywords liquidpropertiesadvancescollidercollisionsdecadefieldheavy

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The past decade has seen huge advances in experimental measurements made in heavy ion collisions at the Relativistic Heavy Ion Collider (RHIC) and more recently at the Large Hadron Collider (LHC). These new data, in combination with theoretical advances from calculations made in a variety of frameworks, have led to a broad and deep knowledge of the properties of thermal QCD matter. Increasingly quantitative descriptions of the quark-gluon plasma (QGP) created in these collisions have established that the QGP is a strongly coupled liquid with the lowest value of specific viscosity ever measured. However, much remains to be learned about the precise nature of the initial state from which this liquid forms, how its properties vary across its phase diagram and how, at a microscopic level, the collective properties of this liquid emerge from the interactions among the individual quarks and gluons that must be visible if the liquid is probed with sufficiently high resolution. This white paper, prepared by the Hot QCD Writing Group as part of the U.S. Long Range Plan for Nuclear Physics, reviews the recent progress in the field of hot QCD and outlines the scientific opportunities in the next decade for resolving the outstanding issues in the field.

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