Add to ORKGA new form of matter with de-confined quarks and gluons, named the "Quark Gluon Plasma" (QGP), is predicted by Lattice Qutantum Chromodynamics to exist at high temperatures and/or high baryon density regions in the QCD phase diagram. Experimental evidence indicates that the QCD matter created in high energy Au+Au collisions at the Relativistic Heavy Ion Collider (RHIC) in Brookhaven National Lab is a strongly-coupled Quark-Gluon Plasma. One of the central goals of heavy ion physics is to understand the QGP through quantitative comparisons between theoretical calculations and experimental measurements. Heavy flavor quarks are believed to be a unique probe for this task, because they are dominantly produced in the initial hard scatterings, wh...
In this contribution, the STAR collaboration at RHIC reports on measurements related to heavy flavor...
The Relativistic Heavy Ion Collider (RHIC) at BNL offers a unique opportunity in that it is capable ...
High energy heavy-ion collisions provide us with the unique opportunity to study the Quark-Gluon Pla...
Heavy quarks are suitable probes to study the properties of Quark-Gluon Plasma (QGP), a strongly int...
Measurements by the STAR and PHENIX collaborations indicate that a quark-gluon plasma, a hot and den...
At sufficiently high temperatures and densities quarks and gluons exist in a deconfined state called...
Recent results at RHIC seem to confirm T.D.Lee's hypothesis that a new form of matter, the quark-glu...
PHENIX measures leptons at mid and forward rapidities and extracts leptons resulting from semi-lepto...
Submitted to Phys. Rev. LettThe STAR collaboration at RHIC reports measurements of the inclusive yie...
Recent results at RHIC seem to confirm T.D.Lee’s hypothesis that a new form of matter, the quark- glu...
In these proceedings, heavy flavor production as measured by STAR is disscussed. This can be done di...
The properties of the hot and dense nuclear matter produced at RHIC in heavy-ion collisions can be i...
Relativistic heavy ion collisions allow the study of Quantum Chromodynamics at high energy density a...
http://prc.aps.org/pdf/PRC/v84/i4/e044905Transverse momentum spectra of electrons (pTe) from semilep...
The STAR collaboration at RHIC reports measurements of the inclusive yield of non-photonic electron...
In this contribution, the STAR collaboration at RHIC reports on measurements related to heavy flavor...
The Relativistic Heavy Ion Collider (RHIC) at BNL offers a unique opportunity in that it is capable ...
High energy heavy-ion collisions provide us with the unique opportunity to study the Quark-Gluon Pla...
Heavy quarks are suitable probes to study the properties of Quark-Gluon Plasma (QGP), a strongly int...
Measurements by the STAR and PHENIX collaborations indicate that a quark-gluon plasma, a hot and den...
At sufficiently high temperatures and densities quarks and gluons exist in a deconfined state called...
Recent results at RHIC seem to confirm T.D.Lee's hypothesis that a new form of matter, the quark-glu...
PHENIX measures leptons at mid and forward rapidities and extracts leptons resulting from semi-lepto...
Submitted to Phys. Rev. LettThe STAR collaboration at RHIC reports measurements of the inclusive yie...
Recent results at RHIC seem to confirm T.D.Lee’s hypothesis that a new form of matter, the quark- glu...
In these proceedings, heavy flavor production as measured by STAR is disscussed. This can be done di...
The properties of the hot and dense nuclear matter produced at RHIC in heavy-ion collisions can be i...
Relativistic heavy ion collisions allow the study of Quantum Chromodynamics at high energy density a...
http://prc.aps.org/pdf/PRC/v84/i4/e044905Transverse momentum spectra of electrons (pTe) from semilep...
The STAR collaboration at RHIC reports measurements of the inclusive yield of non-photonic electron...
In this contribution, the STAR collaboration at RHIC reports on measurements related to heavy flavor...
The Relativistic Heavy Ion Collider (RHIC) at BNL offers a unique opportunity in that it is capable ...
High energy heavy-ion collisions provide us with the unique opportunity to study the Quark-Gluon Pla...