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Title: Spinodal phase separation in relativistic nuclear collisions

Journal Article · · Physical Review. C, Nuclear Physics
 [1]
  1. Nuclear Science Division, Lawrence Berkeley National Laboratory, Berkeley, California 94720 (United States)
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The spinodal amplification of density fluctuations is treated perturbatively within dissipative fluid dynamics for the purpose of elucidating the prospects for this mechanism to cause a phase separation to occur during a relativistic nuclear collision. The present study includes not only viscosity but also heat conduction (whose effect on the growth rates is of comparable magnitude but opposite), as well as a gradient term in the local pressure, and the corresponding dispersion relation for collective modes in bulk matter is derived from relativistic fluid dynamics. A suitable two-phase equation of state is obtained by interpolation between a hadronic gas and a quark-gluon plasma, while the transport coefficients are approximated by simple parametrizations that are suitable at any degree of net baryon density. We calculate the degree of spinodal amplification occurring along specific dynamical phase trajectories characteristic of nuclear collision at various energies. The results bring out the important fact that the prospects for spinodal phase separation to occur can be greatly enhanced by careful tuning of the collision energy to ensure that the thermodynamic conditions associated with the maximum compression lie inside the region of spinodal instability.

OSTI ID:
21421040
Journal Information:
Physical Review. C, Nuclear Physics, Vol. 82, Issue 3; Other Information: DOI: 10.1103/PhysRevC.82.034902; (c) 2010 The American Physical Society; ISSN 0556-2813
Country of Publication:
United States
Language:
English

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Related Subjects

73 NUCLEAR PHYSICS AND RADIATION PHYSICS
AMPLIFICATION
BARYONS
COLLISIONS
COMPRESSION
DENSITY
DISPERSION RELATIONS
EQUATIONS OF STATE
FLUCTUATIONS
FLUID MECHANICS
INSTABILITY
INTERPOLATION
QUARK MATTER
RELATIVISTIC RANGE
THERMAL CONDUCTION
ELEMENTARY PARTICLES
ENERGY RANGE
ENERGY TRANSFER
EQUATIONS
FERMIONS
HADRONS
HEAT TRANSFER
MATHEMATICAL SOLUTIONS
MATTER
MECHANICS
NUMERICAL SOLUTION
PHYSICAL PROPERTIES
VARIATIONS