New family of exact and rotating solutions of fireball hydrodynamics

A new class of analytic, exact, rotating, self-similar, and surprisingly simple solutions of nonrelativistic hydrodynamics are presented for a three-dimensionally expanding, spheroidally symmetric fireball. These results generalize earlier, nonrotating solutions for ellipsoidally symmetric fireballs with directional, three-dimensional Hubble flows. The solutions are presented for a general class of equations of state that includes the lattice QCD equations of state and may feature inhomogeneous temperature and corresponding density profiles.