Granular Matter

(supported by NSF Grants DMS 0605857 and 0835611; NASA Grant NNC04GA98G)

[See below for selected publications]

Recent colaborators:

Granular materials are poorly understood at a fundamental level. While there is a number of continuum models, usually based on elastoplastic type of constitutive relations, it is still very difficult to understand some basic features of granular materials based on continuum picture alone. One of the reasons are fluctuations, whose which are not necessary small, as it is emphasized by this picture of stress chains in slowly sheared granular system.

Molecular dynamics / Discrete element simulations appear to be a natural approach to gain better insight into these systems. During last few years, I have been developing 2D and 3D MD simulations with the goal of explaining some basic features of statics and dynamics of granular materials. This research has developed in few directions; some of these are listed below and in the linked pages.

Force and Energy transport in dense granular materials.  This large scale project concentrates on propagation of imposed perturbation through dense granular systems.  Both molecular dynamics simulations and continuum models are being developed.  In collaboration with R.P. Behringer, Duke, and M.D. Shattuck, CCNY.  More details about this project are available here.

Dynamics of dense granular mater under variable gravity conditions.  A significant part of this project concentrates on a sheared granular system in Couette geometry. This research, sponsored by NASA Microgravity Program, is performed in close collaboration with the granular group at Duke University lead by R. P. Behringer. The figure below shows an example of the `force chains' that appear as granular particles experience as they are being sheared.

More information about this research project can be found here.

Selected recent publications on granular materials:

(see here for the complete list).

On velocity profiles and stresses in sheared and vibrated granular systems under variable gravity, with O. Baran, Phys. Fluids 18, 121509 (2006).

Velocity profiles, stresses, and Bagnold scaling of sheared granular system in zero gravity, with O. Baran, Phys. Fluids 17, 073304 (2005).

Stabilization of nonlinear velocity profiles in athermal systems undergoing planar shear flow, with N. Xu and C. O'Hern, Phys. Rev. E., 72, 016001 (2005).

Velocity Profiles in Repulsive Glassy and Athermal Systems under Shear, with N. Xu and C. O'Hern, Phys. Rev. Lett. 94, 016001 (2005).

Elastic Energy, Fluctuations and Temperature for Granular Materials, with R.P. Behringer, Europhys. Lett. 67, 205 (2004).

Segregation by friction, with S.G.K. Tennakoon, B. Painter, R. Hartley, and R.P. Behringer, Europhys. Lett. 61, 742 (2003).

Granular friction, Coulomb Failure, and Fluid-Solid transition for horizontally shaken granular materials, with G. Metcalfe, S.G.K. Tennakoon, D.G. Schaeffer, R.P. Behringer, Phys. Rev. E 65, 031302 (2002).

Onset of a flow in horizontally vibrated granular bed: convection by horizontal shearing, with S.G.K. Tennakoon and R.P. Behringer, Europhys. Lett. 45, 470 (1999).

Dynamics of the particles on a surface: About collision induced sliding and other effects, Phys. Rev. E 60, 751 (1999).