We estimate the production of electromagnetic radiation (real and virtual photons) from the early, pre-equilibrium stage of relativistic heavy-ion collisions. The parton dynamics are obtained as a solution of the Boltzmann equation in the Fokker-Planck diffusion limit. The photon and dilepton rates are integrated and the obtained yields are compared with those from standard sources and with available experimental data. The nonequilibrium electromagnetic contribution can be nonnegligible at the current LHC energies, depending on the saturation scale. Predictions are made for $\mathrm{Pb}+\mathrm{Pb}$ at $\sqrt{{s}_{\mathrm{NN}}}=5.02\phantom{\rule{0.16em}{0ex}}\mathrm{TeV}$.

Emission of electromagnetic radiation from the early stages of relativistic heavy-ion collisions

The progress over the 30 years since the first high-energy heavy-ion collisions at the BNL-AGS and CERN-SPS has been truly remarkable. Rigorous experimental and theoretical studies have revealed a new state of the matter in heavy-ion collisions, the quark-gluon plasma (QGP). Many signatures supporting the formation of the QGP have been reported. Among them are jet quenching, the non-viscous flow, direct photons, and Debye screening effects. In this article, selected signatures of the QGP observed at RHIC and the LHC are reviewed.

/pdf/signatures-of-qgp-at-rhic-and-the-lhc-2l4l16lqh3.pdf

Signatures of QGP at RHIC and the LHC

Modelling relativistic heavy-ion collisions with dynamical transport approaches

The emission of real photons from a momentum-anisotropic quark-gluon plasma (QGP) is affected by both the collective flow of the radiating medium and the modification of the local rest frame emission rate due to the anisotropic momentum distribution of partonic degrees of freedom. In this paper, we first calculate the photon production rate from an ellipsoidally momentum-anisotropic QGP including hard contributions from Compton scattering and quark pair annihilation and soft contribution calculated using the hard thermal loop approximation. We introduce a parametrization of the nonequilibrium rate in order to facilitate its further application in yield and flow calculations. We convolve the anisotropic photon rate with the space-time evolution of QGP provided by $3+1\mathrm{d}$ anisotropic hydrodynamics to obtain the yield and the elliptic flow coefficient ${v}_{2}$ of photons from QGP generated at Pb-Pb collisions at the LHC at 2.76 TeV and Au-Au collisions at the RHIC at 200 GeV. We investigate the effects of various parameters on the results. In particular, we analyze the sensitivity of the results to initial momentum anisotropy.

Photon production and elliptic flow from a momentum-anisotropic quark-gluon plasma

Direct real photons are arguably the most versatile tools to study relativistic heavy ion collisions. They are produced, by various mechanisms, during the entire space-time history of the strongly interacting system. Also, being colorless, most the time they escape without further interaction, ie they are penetrating probes. This makes them rich in information, but hard to decypher and interpret. This review presents the experimental and theoretical developments related to direct real photons since the 1970s, with a special emphasis on the recently emerged "direct photon puzzle", the simultaneous presence of large yields and strong azimuthal asymmetries of photons in heavy ion collisions, an observation that so far eluded full and coherent explanation.

Direct real photons in relativistic heavy ion collisions

Direct real photons are arguably the most versatile tools to study relativistic heavy ion collisions. They are produced, by various mechanisms, during the entire space-time history of the strongly interacting system. Also, being colorless, most the time they escape without further interaction, i.e. they are penetrating probes. This makes them rich in information, but hard to decypher and interpret. This review presents the experimental and theoretical developments related to direct real photons since the 1970s, with a special emphasis on the recently emerged 'direct photon puzzle', the simultaneous presence of large yields and strong azimuthal asymmetries of photons in heavy ion collisions, an observation that so far eluded full and coherent explanation.

Direct real photons in relativistic heavy ion collisions.

Penetrating probes like direct photons were always considered a crucial tool to study the initial conditions established in relativistic heavy ion collisions and to possibly map out the entire time history of the collision. Technically, however, the direct photon measurement is very challenging, primarily due to the large photon background from hadron decays. Now that after the first three years of RHIC operations the hadron spectra are well established there is an increased interest in the community to extract the spectrum of direct (non-hadronic) photons both from p+p, d+Au and Au+Au data. This paper reports on the currently available results and assesses what new results might be expected in the near future.

Direct photons at RHIC — Preliminary results and prospects

The Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory had its first physics run Summer 2000 colliding Au+Au ions at √sNN=130 GeV energy. The PHENIX experiment measured global observables of the collision, spectra of electrons and identified hadrons as well as pair correlations. This talk gives an overview of the PHENIX results as presented at the Budapest'02 Workshop on Quark and Hadron Dynamics, Budapest, Hungary, March 3–7, 2002.

Results from PHENIX: Year-1 and outlook

We will summarize how future measurements of electromagnetic probes at the upgraded Relativistic Heavy Ion Collider (RHIC-II), in connection with theoretical analysis, can advance our understanding of strongly interacting matter at high energy densities and temperatures. Electromagnetic probes have already played a very important role at SPS and RHIC to date. We will try to identify key physics objectives and observables that remain to be addressed. These include measuring the initial temperature and examining the transition properties via continuum radiation, studying the energy loss mechanism in the medium, the system size evolution via photon-photon correlations as well as medium modifications of vector mesons via low-mass dileptons. We will argue that detector upgrades, increased experimental precision, order of magnitude higher statistics than currently achievable, as well as a detailed scan of colliding species and energies are necessary to allow for sufficient discrimination power in theoretical interpretations.

Electromagnetic probes at rhic-ii

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