Strong magnetic fields have a profound impact on the behavior of hot plasma, resulting in distinct correlations among charged particles in observed data. However, the corresponding theoretical prediction is complicated by a large uncertainty in the magnetic field.? This presentation will delve into recent progress in deriving closed-form expressions for the one-loop photon polarization and photon/dilepton emissions from hot magnetized plasma. Furthermore, we will discuss strategies derived from our theoretical insights that can assist in measuring magnetic fields in real-world physics applications, including heavy ion collisions.
Dr. Xinyang Wang earned his Ph.D. in Theoretical High Energy Physics from Arizona State University in 2013. Following his doctoral studies,he served as a postdoctoral researcher at UCLA and IHEP from 2015 to 2018. In 2018,he joined Jiangsu University as an associate professor,where he worked until 2024. Since 2024,Dr. Wang has been appointed as a professor at Anhui University of Science & Technology. His research focus centers on the study of relativistic matter under extreme conditions.
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