Bulletin of the American Physical Society
6th Joint Meeting of the APS Division of Nuclear Physics and the Physical Society of Japan
Sunday–Friday, November 26–December 1 2023; Hawaii, the Big Island
Session 4WJB: Jet-Medium Interaction and Interplay between Hard-Soft Physics IIInvited Workshop
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Chair: Tetsufumi Hirano, Sophia University Room: Hilton Waikoloa Village Kohala 2 |
Monday, November 27, 2023 4:00PM - 4:30PM |
4WJB.00001: Jet modification from small to large systems at the LHC Invited Speaker: Shingo Sakai Measurement of jets is a powerful tool to investigate the parton dynamics in Quark-Gluon Plasma (QGP) created by heavy-ion collisions. In the LHC, the modifications in jet production are observed in Pb-Pb collisions. Those modifications are thought to reflect the interaction between partons and medium, as well as the medium response of QGP. One of the important discoveries at the LHC is that QGP is possibly created in the small system. In this talk, jet production in small to large systems at the LHC is reported and discuss the modification. |
Monday, November 27, 2023 4:30PM - 5:00PM |
4WJB.00002: Imaging the Intrinsic and Emergent Scales of QCD with Energy Correlators Invited Speaker: Ian Moult In this talk I will present some recent highlights in the quest to better understand the strong nuclear force at collider experiments, driven by recent theoretical developments in the understanding of a class of observables called ``Energy Correlators". I will then apply these developments to explore a variety of interesting phenomena in QCD, ranging from weighing the heaviest quark, to imaging the most perfect fluid. |
Monday, November 27, 2023 5:00PM - 5:30PM |
4WJB.00003: Hadron quenching in cold nuclear medium from fully coherent energy loss Invited Speaker: Kazuhiro Watanabe In high-energy proton-nucleus (pA) collisions, multiple rescatterings in the cold nuclear target induce many soft gluons that have a long formation time, resulting in the modification of hadron production rates due to fully coherent energy loss (FCEL). The FCEL effect, a significant cold nuclear matter effect, is particularly manifest in hadron production at forward rapidity. Therefore, it is crucial to understand the qualitative and quantitative role of the FCEL effect for the quenching of forward hadron production rates before introducing any other nuclear effects, such as nuclear parton distribution functions, whose information could eventually be affected by FCEL. |
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