From landslides to oil and gas recovery to the squeeze of a toothpaste tube, flowing complex fluids are everywhere around us in nature and engineering. That is not to say, though, that they are always well understood. The dissipative interactions, through friction and inelastic collisions, often give rise to nonlinear dynamics and complexity manifested in pattern formation on large scales (see the article by Anita Mehta, Gary Barker, and Jean-Marc Luck, PHYSICS TODAY, May 2009, page 40).
These images illustrate the diverse morphologies found in new work by Bjørnar Sandnes and colleagues at the University of Oslo and the University of Sydney. The experiment is simple: Air is injected into a generic mixture of granular material and fluid contained in a 500-µm gap between two parallel glass plates. At low injection rates, friction between the grains—glass beads averaging 100 µm in diameter—dominates the rheology, producing “stick–slip bubbles” (a) and...