Jet quenching in shock waves

Michael Spillane; Alexander Stoffers; Ismail Zahed

arXiv:1110.5069·hep-th·October 16, 2012

Jet quenching in shock waves

Michael Spillane, Alexander Stoffers, Ismail Zahed

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TL;DR

This paper investigates how ultrarelativistic light quark jets lose energy when passing through shock waves, using holography to determine stopping distances and their relation to jet energy.

Contribution

It introduces a holographic approach to analyze jet quenching in shock wave environments, providing new insights into energy loss mechanisms.

Findings

01

Maximum stopping distance depends on jet energy

02

Holographic model predicts energy loss behavior

03

Results applicable to quark-gluon plasma studies

Abstract

We study the propagation of an ultrarelativistic light quark jet inside a shock wave using the holographic principle. The maximum stopping distance and its dependency on the energy of the jet is obtained.

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