H. Zaraket scite author profile

In this paper, we extend the study of bremsstrahlung photon production in a quark-gluon plasma to the cases of soft static photons and hard real photons. The general framework of this study is the effective perturbative expansion based on the resummation of hard thermal loops. Despite the fact that bremsstrahlung only comes at two loops, we find that in both cases it generates contributions of the same order of magnitude as those already calculated by several other groups at one loop. Furthermore, a new process contained in the two-loop diagrams dominate the emission of a very hard real photon. In all cases, the rate of real or virtual photon production in the plasma is appreciably increased compared to the one-loop predictions.Comment: 35 pages, LaTeX2e, uses class article and package graphics, 13 postscript figure

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A simple sum rule for the thermal gluon spectral function and applications

Aurenche¹,

Gelis²,

Zaraket³

2002

J. High Energy Phys.

161

191

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In this paper, we derive a simple sum rule satisfied by the gluon spectral function at finite temperature. This sum rule is useful in order to calculate exactly some integrals that appear frequently in the photon or dilepton production rate by a quark gluon plasma. Using this sum rule, we rederive simply some known results and obtain some new results that would be extremely difficult to justify otherwise. In particular, we derive an exact expression for the collision integral that appears in the calculation of the Landau-Pomeranchuk-Migdal effect. LAPTH-909/02, LPT-ORSAY-02/272 The term in M 2 ∞ K T ,L was forgotten in [26]. It comes from the HTL correction to the γqq vertex. This vertex correction was also neglected in [32,33], without any damage to this approach since it affects only the component Πzz of the polarization tensor, while only the transverse components are calculated in these papers (see [37] for more details on this issue).3 Some very partial asymptotic results have been obtained in [26] for J T ,L . 4A Asymptotic behavior of F (x)

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Landau-Pomeranchuk-Migdal resummation for dilepton production

Aurenche¹,

Gelis²,

Moore³

et al. 2002

J. High Energy Phys.

109

178

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We consider the thermal emission rate of dileptons from a QCD plasma in the small invariant mass (Q 2 ∼ g 2 s T 2 ) but large energy (q 0 > ∼ T ) range. We derive an integral equation which resums multiple scatterings to include the LPM effect; it is valid at leading order in the coupling. Then we recast it as a differential equation and show a simple algorithm for its solution. We present results for dilepton rates at phenomenologically interesting energies and invariant masses.SPhT-T02/150, LAPTH-946/02 * A test program calculating the LPM corrections to the photon and dilepton rates can be found at the

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Landau-Pomeranchuk-Migdal effect in thermal field theory

2000

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In recent studies, the production rate of photons or lepton pairs by a quark gluon plasma has been found to be enhanced due to collinear singularities. This enhancement pattern is very dependent on rather strict collinearity conditions between the photon and the quark momenta. It was estimated by neglecting the collisional width of quasi-particles. In this paper, we study the modifications of this collinear enhancement when we take into account the possibility for the quarks to have a finite mean free path. Assuming a mean free path of order $(g^2T\ln(1/g))^{-1}$, we find that only low invariant mass photons are affected. The region where collision effects are important can be interpreted as the region where the Landau-Pomeranchuk-Migdal effect plays a role in thermal photon production by bremsstrahlung. It is found that this effect modifies the spectrum of very energetic photons as well. Based on these results and on a previous work on infrared singularities, we end this paper by a reasonable physical picture for photon production by a quark gluon plasma, that should be useful to set directions for future technical developments.Comment: 28 pages Latex document, 9 postscript figures, typos corrected, semantics cleanup, final version to appear in Phys. Rev.

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H. Zaraket

Bremsstrahlung and photon production in thermal QCD

A simple sum rule for the thermal gluon spectral function and applications

Landau-Pomeranchuk-Migdal resummation for dilepton production

Landau-Pomeranchuk-Migdal effect in thermal field theory

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