Abstract

The surface evolution of a sandpile was investigated theoretically by Bouchaud et al. several years ago [J. Phys. I 4, 1383 (1994)]. Their model assumes that the erosion/accretion rate of the static grains is proportional to the local amount R of rolling species. de Gennes et al. [Phys. Rev. E 58, 4692 (1998)] have noticed recently that this assumption must be modified for thick surface flows, where the rate should become less dependent on R. In order to analyze the progressive transition from thin to thick flows, we focus on the so-called stop flow problem, where an incoming front of rolling particles suddenly hits an immobile wall. We find that the physical behavior of the grains changes significantly as the thickness of the incoming front increases.