Theory of Jet Quenching in Ultra-Relativistic Nuclear Collisions
Guang-You Qin
TL;DR
This paper reviews recent theoretical advances in understanding jet quenching phenomena in ultra-relativistic nuclear collisions, covering experimental, computational, and theoretical approaches including QCD calculations, medium response, and holographic models.
Contribution
It provides a comprehensive overview of recent progress in jet quenching theory, integrating phenomenological, perturbative, lattice, and holographic perspectives.
Findings
Enhanced understanding of jet energy loss mechanisms
Development of NLO QCD calculations for jet broadening
Insights into medium response and jet modification processes
Abstract
We present a short overview of recent progress in the theory of jet quenching in ultra-relativistic nuclear collisions, including phenomenological studies of jet quenching at RHIC and the LHC, development in NLO perburbative QCD calculation of jet broadening and energy loss, full jet evolution and modification, medium response to jet transport, and lattice QCD and AdS/CFT studies of jet quenching.
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