Direct photon anisotropy and the time evolution of the quark-gluon plasma

Direct photon anisotropy and the time evolution of the quark-gluon plasma

<p> Historically, the thermal photon inverse slope parameter has been interpreted as the thermalization temperature of the QGP. Observation of the thermal photon spectrum in nucleus-nucleus collisions at the ALICE and PHENIX experiments obtain the inverse slope parameter, but the obtained valu...

Full description

Bibliographic Details
Main Author: Browning, Tyler A.
Language:EN
Published: Purdue University 2016
Subjects:
Physics|Nuclear physics and radiation
Online Access:http://pqdtopen.proquest.com/#viewpdf?dispub=10170585
Description
Summary:<p> Historically, the thermal photon inverse slope parameter has been interpreted as the thermalization temperature of the QGP. Observation of the thermal photon spectrum in nucleus-nucleus collisions at the ALICE and PHENIX experiments obtain the inverse slope parameter, but the obtained values are inconsistent with the thermalization temperature predicted by the hydrodynamic model. It has therefore been argued that the inverse slope parameter is not representative of the true QGP thermalization temperature because not all thermal photons are emitted at thermalization. This research will probe this assertion using an investigation of flow and nuclear suppression of thermal photons from ALICE Pb-Pb collisions at &radic;<i>s<sub>NN</sub></i> = 2.76 TeV and comparison to p-p data at &radic;<i>s<sub>NN</sub></i> = 2.76 TeV.</p>

Similar Items