Add to ORKGCollisions of heavy atomic nuclei at very high beam energies allow to create and study hot QCD matter under laboratory-controlled conditions. Measurements at the SPS and RHIC facilities have yielded compelling evidence for the formation of this novel state of matter, the so-called Quark-Gluon Plasma (QGP). Due to their large mass, heavy quarks (charm and bottom) are believed to be predominantly produced in the initial state of the collision so that they probe the entire lifetime of the QGP. Thus, the investigation of heavy-flavour meson production in nucleus-nucleus collisions provides profound insight into the QGP properties. A review on heavy-flavour meson production at RHIC will be presented
High energy collisions of heavy atomic nuclei allow to create and carefully study a high-density, co...
Relativistic heavy ion collisions allow the study of Quantum Chromodynamics at high energy density a...
International audienceThis report reviews the study of open heavy-flavour and quarkonium production ...
Collisions of heavy atomic nuclei at very high beam energies allow to create and study hot QCD matt...
Heavy quarks (charm and bottom) provide sensitive penetrating probes of hot quark matter produced i...
Heavy quarks (charm and bottom) provide sensitive penetrating probes of hot quark matter produced i...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
Heavy quarks are particularly good probes to study the properties of hot QCD matter (especially tran...
Heavy flavours are effective probes of the hot and dense matter, the Quark-Gluon plasma (QGP), produ...
The study of heavy flavor production in relativistic heavy ion collisions is an extreme experimental...
Strongly interacting matter at high densities and temperatures can be created in high-energy collisi...
Heavy-flavour measurements give an important contribution to the understanding of the Quark-Gluon Pl...
High energy collisions of heavy atomic nuclei allow to create and carefully study a high-density, co...
Relativistic heavy ion collisions allow the study of Quantum Chromodynamics at high energy density a...
International audienceThis report reviews the study of open heavy-flavour and quarkonium production ...
Collisions of heavy atomic nuclei at very high beam energies allow to create and study hot QCD matt...
Heavy quarks (charm and bottom) provide sensitive penetrating probes of hot quark matter produced i...
Heavy quarks (charm and bottom) provide sensitive penetrating probes of hot quark matter produced i...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
International audienceHeavy flavour measurements have a key role in the investigation of the propert...
Heavy quarks are particularly good probes to study the properties of hot QCD matter (especially tran...
Heavy flavours are effective probes of the hot and dense matter, the Quark-Gluon plasma (QGP), produ...
The study of heavy flavor production in relativistic heavy ion collisions is an extreme experimental...
Strongly interacting matter at high densities and temperatures can be created in high-energy collisi...
Heavy-flavour measurements give an important contribution to the understanding of the Quark-Gluon Pl...
High energy collisions of heavy atomic nuclei allow to create and carefully study a high-density, co...
Relativistic heavy ion collisions allow the study of Quantum Chromodynamics at high energy density a...
International audienceThis report reviews the study of open heavy-flavour and quarkonium production ...