TL;DR
This paper reviews recent experimental and theoretical advances in electroweak probes, highlighting their role in studying hot, dense matter in relativistic nuclear collisions, based on findings from Hard Probes 2020.
Contribution
It summarizes new experimental analyses and theoretical calculations on electromagnetic and weak probes presented at Hard Probes 2020.
Findings
Electroweak probes provide insights into the properties of hot, dense matter.
Recent experimental results enhance understanding of electromagnetic and weak interactions in nuclear collisions.
Theoretical models are advancing in describing electroweak signals in extreme conditions.
Abstract
Electroweak probes are potential tool to study the properties of the hot and dense strongly interacting matter produced in relativistic nuclear collisions due to their unique nature. A selection of the new experimental analysis and results from theory calculations on electromagnetic and weak probes presented at the Hard Probes 2020 are discussed in this contribution.
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