Critical Behavior of a Heavy Particle in a Granular Fluid
Abstract
Behavior analogous to a second order phase transition is observed for the homogeneous cooling state of a heavy impurity particle in a granular fluid. The order parameter φ is the ratio of impurity mean square velocity to that of the fluid, with a conjugate field h proportional to the mass ratio. A parameter β , measuring the fluid cooling rate relative to the impurity--fluid collision rate, is the analogue of the inverse temperature. For β <1 the fluid is ``normal'' with φ =0 at h=0, as in the case of a system with elastic collisions. For β >1 an ``ordered'' state with φ ≠ 0 occurs at h=0, representing an extreme breakdown of equipartition. Critical slowing and qualitative changes in the velocity distribution function for the impurity particle near the transition are noted
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