595 research outputs found
Quark liberation and coalescence at CERN SPS
The mischievous linear coalescence approach to hadronization of quark matter
is shown to violate strangeness conservation in strong interactions. The
simplest correct quark counting is shown to coincide with the non-linear
algebraic coalescence rehadronization model, ALCOR. The non-linearity of the
ALCOR model is shown to cancel from its simple predictions for the relative
yields of (multi-)strange baryons. We prove, model independently, that quark
degrees of freedom are liberated before hadron formation in 158 AGeV central Pb
+ Pb collisions at CERN SPS.Comment: Latex file, 6 pages, improved text and conclusio
Properties of quark matter produced in heavy ion collision
We describe the hadronization of quark matter assuming that quarks creating
hadrons coalesce from a continuous mass distribution. The pion and antiproton
spectrum as well as the momentum dependence of the antiproton to pion ratio are
calculated. This model reproduces fairly well the experimental data at RHIC
energies.Comment: 9 pages, 6 Postscript figures, typos are correcte
Thermodynamics and flow-frames for dissipative relativistic fluids
A general thermodynamic treatment of dissipative relativistic fluids is
introduced, where the temperature four vector is not parallel to the velocity
field of the fluid. Generic stability and kinetic equilibrium points out a
particular thermodynamics, where the temperature vector is parallel to the
enthalpy flow vector and the choice of the flow fixes the constitutive
functions for viscous stress and heat. The linear stability of the homogeneous
equilibrium is proved in a mixed particle-energy flow-frame.Comment: 9 page
Splitting the source term for the Einstein equation to classical and quantum parts
We consider the special and general relativistic extensions of the action
principle behind the Schr\"odinger equation distinguishing classical and
quantum contributions. Postulating a particular quantum correction to the
source term in the classical Einstein equation we identify the conformal
content of the above action and obtain classical gravitation for massive
particles, but with a cosmological term representing off-mass-shell
contribution to the energy-momentum tensor. In this scenario the - on the
Planck scale surprisingly small - cosmological constant stems from quantum
bound states (gravonium) having a Bohr radius as being \Lambda=3/a^2.Comment: 13 pages, revise
Relativistic hydrodynamics - causality and stability
Causality and stability in relativistic dissipative hydrodynamics are
important conceptual issues. We argue that causality is not restricted to
hyperbolic set of differential equations. E.g. heat conduction equation can be
causal considering the physical validity of the theory. Furthermore we propose
a new concept of relativistic internal energy that clearly separates the
dissipative and non-dissipative effects. We prove that with this choice we
remove all known instabilities of the linear response approximation of viscous
and heat conducting relativistic fluids. In this paper the Eckart choice of the
velocity field is applied.Comment: 14 pages, 2 figures, completely revise
Equation of state for distributed mass quark matter
We investigate how the QCD equation of state can be reconstructed by a
continous mass distribution of non-interacting ideal components. We find that
adjusting the mass scale as a function of the temperature leads to results
which are conform to the quasiparticle model, but a temperature independent
distribution also may fit lattice results. The fitted mass distribution tends
to show a mass gap, supporting the physical picture of the quark coalescence in
hadronization.Comment: talk given at SQM2006, 8 pages, submitted to J.Phys.
Towards the Equation of State of Classical SU(2) Lattice Gauge Theory
We determine numerically the full complex Lyapunov spectrum of SU(2)
Yang-Mills fields on a 3-dimensional lattice from the classical chaotic
dynamics. The equation of state, S(E), is determined from the Kolmogorov-Sinai
entropy extrapolated to the large size limit.Comment: 12 pages, 8 PS figures, LaTe
The production of charm mesons from quark matter at CERN SPS and RHIC
We study the production of charm mesons and other charm baryons from quark
matter at CERN SPS and RHIC energies. Using quark coalescence models as
hadronization mechanism, we predict particle ratios, absolute yields and
transverse momentum spectra.Comment: 4 pages in Latex, 2 PS figure, to be published in the proceedings of
the SQM'2000 Conference, Berkeley, CA, July 20-25, 2000. Submitted to J.
Phys.
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