Présidents de session
Plenary: First day
- Maxim Chernodub (CNRS, Université de Tours, France)
Plenary: Second day
- Fuqiang Wang
Plenary: Third day
- Victor E. Ambruș (West University of Timișoara)
Plenary: Fourth day
- Maxim Chernodub (CNRS, Université de Tours, France)
Plenary: Fifth day
- Matteo Buzzegoli (West University of Timisoara)
Description
test
Review of the experimental status of the polarization measurements in heavy ion collisions is presented.
In this review talk, I discuss recent advancements in the theoretical understanding of polarization phenomena in heavy ion collisions. I will focus on recent theoretical developments concerning vector polarization and spin alignment, including their numerical study and comparison with experiments. I will highlight the successes and the open questions in the current models, offering insights...
The interplay between the chiral anomaly and the magnetic/vortical field created in heavy-
ion collisions can give rise to anomalous chiral effects. In this talk, the latest results of the
Chiral Magnetic Effect, Chiral Magnetic Wave, and Chiral Vortical Effect are reported in
Pb–Pb and Xe–Xe collisions recorded by the ALICE detector.
In this talk I will present the recent results of CME searches from the STAR collaboration using a novel event shape selection method and give a personal prospect on the future of the CME experimental searches. In high-energy heavy-ion collisions, the chiral magnetic effect (CME) may arise from the interplay between domains of chirality imbalanced quarks in the quark-gluon plasma and the...
I will review the recent discussions on the phase diagram under rotation and magnetic field. The interpretation of rotation effects on the QCD phase transition is still controversial, and the coexisting of rotation and magnetic field makes the physical system even more confusing. The talk will go through results from lattice results, model calculations, perturbative QCD, as well as the latest...
A review talk on some of the new developments on the Chiral Magnetic Effect.
In this talk, I will review how the conductivities of anomalous transport phenomena can be extracted using lattice QCD, in particular focusing on the Chiral Separation Effect (CSE) and Chiral Magnetic Effect (CME). For the CSE, I will explain how the sign problem has been circumvented to study this effect in different setups, leading to the determination of its conductivity in QCD with...
In this report the influence of relativistic rotation on QCD properties will be considered. I am going to review the results which were obtained within lattice simulation of QCD. It has become commonplace to perform such studies in the reference frame rotating with the system under investigation. In this case there appears the gravitational field and the problem is reduced to study of QCD in...
