Is friction essential for dilatancy and shear jamming in granular matter?

Abstract: Granular packings display the remarkable phenomenon of dilatancy [1], wherein their volume increases upon shear deformation. Conventional wisdom and previous results suggest that dilatancy, as also the related phenomenon of shear-induced jamming, requires frictional interactions [2, 3]. Here, we investigate the occurrence of dilatancy and shear jamming in frictionless packings. We show that the existence of isotropic jamming densities {\phi}j above the minimal density, the J-point density {\phi}J [4, 5], leads both to the emergence of shear-induced jamming and dilatancy. Packings at {\phi}J form a significant threshold state into which systems evolve in the limit of vanishing pressure under constant pressure shear, irrespective of the initial jamming density {\phi}j. While packings for different {\phi}j display equivalent scaling properties under compression [6], they exhibit striking differences in rheological behaviour under shear. The yield stress under constant volume shear increases discontinuously with density when {\phi}j > {\phi}J, contrary to the continuous behavior in generic packings that jam at {\phi}J [4, 7].