Physics and Astronomy Colloquium: Flowing through the nuclear phase diagram at the highest temperatu

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Date: October 6, 2022
Time: 3:30 p.m. - 5:00 p.m.
Location: STEM/SILK 0112 | Map
Category: Seminar

Please note: change of location Rm -0112 STEM building. 

Speaker: Dr. Chun Shen, Wayne State University

Title: Flowing through the nuclear phase diagram at the highest temperatures and densities

Abstract: 

Nuclear matter has a complex phase structure, ‚Äčincluding a deconfined Quark-Gluon Plasma (QGP) phase ‚Äčat extreme pressures and temperatures. The hot QGP behaves like an inviscid fluid and filled the universe during its first few microseconds after the Big Bang. High energy collisions of heavy atomic nuclei recreate this hot nuclear matter in the laboratory. In this talk, I will review recent theoretical progress in studying the QGP transport properties. The Relativistic Heavy-Ion Collider (RHIC) has conducted a beam energy scan whose results offer a unique opportunity to study the nuclear phase diagram in a baryon-rich environment. I will highlight the development of a comprehensive framework that can connect the fundamental theory of strong interactions with the RHIC experimental observables. This dynamical framework paves the way for quantitative QGP characterization and locating the critical point in the nuclear phase diagram. These studies will advance our understanding of strongly interacting many-body systems, building interconnections with other areas of physics, including neutron star mergers, string theory, cosmology, and cold atomic gases.
 
Bio:
Prof. Shen got his Ph. D degree from the Ohio State University in 2014. After graduation, he was a postdoc fellow at McGill University and a Goldhaber Fellow at the Brookhaven National Laboratory. He accepted a RIKEN-BNL bridged position as an assistant professor at Wayne State University in 2018. Over the years, he received the 2016 APS dissertation award in nuclear physics and the IUPAP young scientist prize in nuclear physics in 2019. In 2021, he was awarded the DoE Early Career Award.

Contact

Claude Pruneau

aa7526@wayne.edu

Cost

Free
October 2022
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