Pattern formation in flowing sand.

Using digital subtraction radiography, we study the basic modes of a granular material (here sand) flowing through a flat hopper. These modes take the form of density waves whose formation and propagation is controlled by several parameters, including the mass flow rate M and the hopper angle \ensuremath{\theta}. We consider the effect of roughness on pattern formation in this system using mixtures of smooth and faceted sand and show the existence of a bifurcation at a mass fraction of faceted sand X\ensuremath{\approxeq}0.2. Propagating patterns form in faceted sand but not in smooth sand of the same size.