Y. Pürsün scite author profile

We investigate the compression of nuclear matter in relativistic hydrodynamics. Nuclear matter is described by a σ − ω-type model for the hadron matter phase and by the MIT bag model for the quark-gluon plasma, with a first order phase transition between both phases. In the presence of phase transitions, hydrodynamical solutions change qualitatively, for instance, one-dimensional stationary compression is no longer accomplished by a single shock but via a sequence of shock and compressional simple waves. We construct the analytical solution to the "slab-on-slab" collision problem over a range of incident velocities. The performance of numerical algorithms to solve relativistic hydrodynamics is then investigated for this particular test case. Consequences for the early compressional stage in heavy-ion collisions are pointed out.

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The phase transition to the quark-gluon plasma and its effect on hydrodynamic flow

Rischke

Pürsün

Maruhn

et al. 1995

APH N.S., Heavy Ion Physics

150

147

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Collective effects and nuclear stopping

Hofmann¹,

Mattiello²,

Amelm³

et al. 1994

Nuclear Physics A

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Comparison of flux-correcting and spline algorithms for solving (3+1)-dimensional relativistic hydrodynamics

et al. 1994

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The Hydrodynamic Model for High-Energy Heavy Ion Reactions

Pürsün

Katscher

Keitz

et al. 1994

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Y. Pürsün

Relativistic hydrodynamics for heavy-ion collisions. II. Compression of nuclear matter and the phase transition to the quark-gluon plasma

The phase transition to the quark-gluon plasma and its effect on hydrodynamic flow

Collective effects and nuclear stopping

Comparison of flux-correcting and spline algorithms for solving (3+1)-dimensional relativistic hydrodynamics

The Hydrodynamic Model for High-Energy Heavy Ion Reactions

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