Heavy Flavor Production from the Color Glass Condensate in pA Collisions(Hot QCD and QGP, Dense hadronic and quark matter, New Frontiers in QCD-Exotic Hadrons and Hadronic Matter-)
スポンサーリンク
概要
- 論文の詳細を見る
Heavy quark production in high-energy proton-nucleus (pA) collisions is described in the framework of the Color Glass Condensate, where multiple scattering and parton saturation effects are treated in a consistent manner with the correlators of Wilson lines in the nuclear target. We show results for heavy quark production at RHIC and LHC energies, and comment on the case of nucleus-nucleus collisions.
- 2007-11-09
著者
-
FUJII Hirotsugu
Institute of Physics, The University of Tokyo
-
Fujii Hirotsugu
Institute Of Physics The University Of Tokyo
-
FUJII Hirotsugu
RIKEN-BNL Research Center, Brookhaven National Laboratory:College of General Education, the University of Tokyo
関連論文
- Effective Potential Study of the Chiral Phase Transition in a QCD-Like Theory(Nuclear Physics)
- Soft Modes at the Critical End Point in the Chiral Effective Models (QCD phase structure : analytic approaches)
- Sigma and Hydrodynamic Modes near the Critical End Point(Proceedings of the YITP Workshop on Nuclear Matter under Extreme Conditions)
- In-Medium Kaon Dispersion Relation and Dilepton Production
- Quarkonium in Heavy Ion Collisions : High-Energy Multiple Scattering of Quark Pair in Nuclei
- Quarkonium in Heavy Ion Collisions : High-Energy Multiple Scattering of Quark Pair in Nuclei
- K^+(k^0)-Condensation in Highly Dense Matter with the Relativistic Mean-Field Theory
- Dilepton Production from Meson Condensed Matter : Nuclear Physics
- Forward Hadron Productions at Collider Energies in CGC Framework(Forward and Diffraction Physics and Cosmic Rays,Multiparticle Dynamics)
- Heavy Flavor Production from the Color Glass Condensate in pA Collisions(Hot QCD and QGP, Dense hadronic and quark matter, New Frontiers in QCD-Exotic Hadrons and Hadronic Matter-)
- Sigma and Hydrodynamic Modes near the Critical End Point(Proceedings of the YITP Workshop on Nuclear Matter under Extreme Conditions)