Lectures on Landau Hydrodynamics

Abstract

Landau hydrodynamics is a plausible description for the evolution of the dense hot matter produced in high-energy heavy-ion collisions. We review the formulation of Landau hydrodynamics to pave the way for its application in high-energy heavy-ion collisions. It is found that Landau's rapidity distribution needs to be modified to provide a better quantitative description. In particular, the rapidity distribution in the center-of-mass system should be more appropriately given as dN/dy yb2-y2, where yb=sNN/mp is the beam nucleon rapidity, instead of Landau's original result of dN/dy(Landau) L2-y2 where L=sNN/2mp. The modified distribution is compared with the Landau distribution and experimental data. It is found that the modified distribution agrees better with experimental dN/dy data than the Landau distribution and it differs only slightly from the Landau Gaussian distribution dN/dy(Landau-Gaussian) -y2/2L. Past successes of the Gaussian distribution in explaining experimental rapidity data arises, not because it is an approximation of the original Landau distribution, but because it is in fact a close representation of the modified distribution.