Add to ORKGWe want to draw the attention to the dynamics of a (finite) hadronizing quark matter drop. Strange and antistrange quarks do not hadronize at the same time for a baryon-rich system1. Both the hadronic and the quark matter phases enter the strange sector fs 6= 0 of the phase diagram almost immediately, which has up to now been neglected in almost all calculations of the time evolution of the system. Therefore it seems questionable, whether final particle yields reflect the actual thermodynamic properties of the system at a certain stage of the evolution. We put special interest on the possible formation of exotic states, namely strangelets (multistrange quark clusters). They may exist as (meta-)stable exotic isomers of nuclear matter 2. It w...
The properties of strange quark matter and strange hadronic matter and their finite counterparts (st...
Quantum Chromodynamics (QCD) predicts that under extreme conditions of energy density ( ≥ 2 GeV fm...
At greater than nuclear densities, matter may convert into a mixture of nucleons, hyperons, dibaryon...
We calculate the evolution of quark-gluon-plasma droplets during the hadronization in a thermodynami...
Recently it has been suggested that rather cold droplets of absolutely stable or metastable strange-...
We present a mechanism for the separation of strangeness from antistrangeness in the deconfinement t...
We demonstrate that strangeness separates in the Gibbs-phase coexistence between a baryon-rich quark...
We present a new technique for observing the strangelet production in quark matter based on unlike p...
We demonstrate that the creation of strange matter is conceivable in the midrapidity region of heavy...
I discuss strangeness production in nucleus-nucleus reactions at ultrarelativistic energies (up to 2...
We reconsider thermal conditions of the central fireball presumed to be the source of abundantly pro...
In a dynamical model of QGP at RHIC we obtain the temporal evolution of strange phase space occupanc...
Relativistic heavy ion collisions offer the possibility to produce exotic metastable states of nucle...
A description of strange quark matter at finite temperature is given, with emphasis on the inclusion...
The production of multiple strange baryons in pp interactions is studied. Here one can directly prob...
The properties of strange quark matter and strange hadronic matter and their finite counterparts (st...
Quantum Chromodynamics (QCD) predicts that under extreme conditions of energy density ( ≥ 2 GeV fm...
At greater than nuclear densities, matter may convert into a mixture of nucleons, hyperons, dibaryon...
We calculate the evolution of quark-gluon-plasma droplets during the hadronization in a thermodynami...
Recently it has been suggested that rather cold droplets of absolutely stable or metastable strange-...
We present a mechanism for the separation of strangeness from antistrangeness in the deconfinement t...
We demonstrate that strangeness separates in the Gibbs-phase coexistence between a baryon-rich quark...
We present a new technique for observing the strangelet production in quark matter based on unlike p...
We demonstrate that the creation of strange matter is conceivable in the midrapidity region of heavy...
I discuss strangeness production in nucleus-nucleus reactions at ultrarelativistic energies (up to 2...
We reconsider thermal conditions of the central fireball presumed to be the source of abundantly pro...
In a dynamical model of QGP at RHIC we obtain the temporal evolution of strange phase space occupanc...
Relativistic heavy ion collisions offer the possibility to produce exotic metastable states of nucle...
A description of strange quark matter at finite temperature is given, with emphasis on the inclusion...
The production of multiple strange baryons in pp interactions is studied. Here one can directly prob...
The properties of strange quark matter and strange hadronic matter and their finite counterparts (st...
Quantum Chromodynamics (QCD) predicts that under extreme conditions of energy density ( ≥ 2 GeV fm...
At greater than nuclear densities, matter may convert into a mixture of nucleons, hyperons, dibaryon...