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dc.identifier.urihttp://hdl.handle.net/1951/59678
dc.identifier.urihttp://hdl.handle.net/11401/71249
dc.description.sponsorshipThis work is sponsored by the Stony Brook University Graduate School in compliance with the requirements for completion of degree.en_US
dc.formatMonograph
dc.format.mediumElectronic Resourceen_US
dc.language.isoen_US
dc.publisherThe Graduate School, Stony Brook University: Stony Brook, NY.
dc.typeDissertation
dcterms.abstractThe transport properties of high temperature QCD plasmas can be described by kinetic theory based on the Boltzmann equation. At a leading-log approximation, the Boltzmann equation is reformulated as a Fokker-Planck equation. First, we compute the spectral densities of T^{mu nu} and J^{mu} by perturbing the system with weak gravitational and electromagnetic fields. The spectral densities exhibit a smooth transition from free-streaming quasi-particles to hydrodynamics. This transition is analyzed with hydrodynamics and diffusion equation up to second order. We determine all of the first and second order transport coefficients which characterize the linear response in the hydrodynamic regime. Second, we simulate the wake of a heavy quark moving through the plasmas. At long distances, the energy density and flux distributions show sound waves and a diffusion wake. The kinetic theory calculations based on the Boltzmann equation at weak coupling are compared to the strong coupling results given by the AdS/CFT correspondence. By using the hard-thermal-loop effective theory, we determine the photon emission rate at next-to-leading order (NLO), i.e. at order g^2 m_D /T. There are three mechanisms which contribute to the leading-order photon emission: (2 to 2) elastic scatterings, (1 to 2) collinear bremsstrahlung, and (1 to 1) quark-photon conversion due to soft fermion exchange. At NLO, these three mechanisms are not completely independent. When the transverse momentum between quark and photon becomes soft, the Compton scattering with a soft gluon reduces to wide-angle bremsstrahlung. Similarly, bremsstrahlung reduces to the quark-photon conversion process when the photon carries most of the incoming momentum. Therefore, the rates should be matched to determine the wide-angle NLO correction. Collinear bremsstrahlung can be accounted for by solving an integral equation which corresponds to summing ladder diagrams. With O(g) corrections in the collision kernel and the asymptotic mass of quarks, we determine the NLO correction from collinear processes.
dcterms.available2013-05-22T17:34:41Z
dcterms.available2015-04-24T14:46:40Z
dcterms.contributorTeaney, Dereken_US
dcterms.contributorDawber, Matthewen_US
dcterms.contributorHemmick, Thomas Ken_US
dcterms.contributorPetreczky, Peter.en_US
dcterms.creatorHONG, JUHEE
dcterms.dateAccepted2013-05-22T17:34:41Z
dcterms.dateAccepted2015-04-24T14:46:40Z
dcterms.dateSubmitted2013-05-22T17:34:41Z
dcterms.dateSubmitted2015-04-24T14:46:40Z
dcterms.descriptionDepartment of Physicsen_US
dcterms.extent167 pg.en_US
dcterms.formatMonograph
dcterms.formatApplication/PDFen_US
dcterms.identifierhttp://hdl.handle.net/1951/59678
dcterms.identifierHONG_grad.sunysb_0771E_11063en_US
dcterms.identifierhttp://hdl.handle.net/11401/71249
dcterms.issued2012-08-01
dcterms.languageen_US
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dcterms.publisherThe Graduate School, Stony Brook University: Stony Brook, NY.
dcterms.subjectPhysics
dcterms.titleTransport Processes in High Temperature QCD Plasmas
dcterms.typeDissertation


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