Add to ORKGWith the QGP opacity computed perturbatively and with the global entropy constraints imposed by the observed dNch/dy~1000, radiative energy loss alone cannot account for the observed suppression of single non-photonic electrons. Collisional energy loss is comparable in magnitude to radiative loss for both light and heavy jets. Two aspects that significantly affect the collisional energy loss are examined: the role of fluctuations, and the effect of introducing a running QCD coupling as opposed to the fixed alpha_s=0.3 used previously
International audienceUnderstanding the energy loss of strongly interacting particles is of utmost i...
We compare an analytic model of jet quenching, based on the GLV non-Abelian energy loss formalism, t...
International audienceEnergy-loss studies of hard particle probes produced in heavy ion collisions h...
8 pages, extended to 11 pages for v2; accepted for publication in Journal of Physics GInternational ...
With the QGP opacity computed perturbatively and with the global entropy constraints imposed by the ...
Considering the collisional energy loss rates of heavy quarks from hard light parton interactions we...
The suppression of high $p_{T}$ hadron production in heavy ion collisions is thought to be due to en...
We calculate the collisional energy loss suffered by a heavy (charm) quark created at a finite time ...
This dissertation discusses my investigations of energy loss of high-momentum quarks and gluons in t...
The suppression of high pT hadron production in heavy ion collisions is thought to be due to energy ...
We present results from a jet energy loss calculation using the Gyulassy-Levai-Vitev (GLV) formalism...
We calculate nuclear suppression factor ($R_{AA}$) for light hadrons by taking only the elastic proc...
High transverse momentum (pT) single nonphotonic electrons which have been measured in the RHIC expe...
Baier R, Schiff D, Zakharov BG. Energy loss in perturbative QCD. ANNUAL REVIEW OF NUCLEAR AND PARTIC...
Abstract. RHIC introduced the method of hard scattering of partons as an in-situ probe of the the me...
International audienceUnderstanding the energy loss of strongly interacting particles is of utmost i...
We compare an analytic model of jet quenching, based on the GLV non-Abelian energy loss formalism, t...
International audienceEnergy-loss studies of hard particle probes produced in heavy ion collisions h...
8 pages, extended to 11 pages for v2; accepted for publication in Journal of Physics GInternational ...
With the QGP opacity computed perturbatively and with the global entropy constraints imposed by the ...
Considering the collisional energy loss rates of heavy quarks from hard light parton interactions we...
The suppression of high $p_{T}$ hadron production in heavy ion collisions is thought to be due to en...
We calculate the collisional energy loss suffered by a heavy (charm) quark created at a finite time ...
This dissertation discusses my investigations of energy loss of high-momentum quarks and gluons in t...
The suppression of high pT hadron production in heavy ion collisions is thought to be due to energy ...
We present results from a jet energy loss calculation using the Gyulassy-Levai-Vitev (GLV) formalism...
We calculate nuclear suppression factor ($R_{AA}$) for light hadrons by taking only the elastic proc...
High transverse momentum (pT) single nonphotonic electrons which have been measured in the RHIC expe...
Baier R, Schiff D, Zakharov BG. Energy loss in perturbative QCD. ANNUAL REVIEW OF NUCLEAR AND PARTIC...
Abstract. RHIC introduced the method of hard scattering of partons as an in-situ probe of the the me...
International audienceUnderstanding the energy loss of strongly interacting particles is of utmost i...
We compare an analytic model of jet quenching, based on the GLV non-Abelian energy loss formalism, t...
International audienceEnergy-loss studies of hard particle probes produced in heavy ion collisions h...