Session T7: Structural and Mechanical Properties of Jammed Amorphous Materials
2:30 PM–5:30 PM, Wednesday, March 23, 2011
Room: Ballroom C3
Sponsoring Unit:
GSNP
Chair: Bulbul Chakraborty, Brandeis University
Abstract ID: BAPS.2011.MAR.T7.2
Abstract: T7.00002 : Point-to-Set as a measure of Correlations during Unjamming in Granular Systems
3:06 PM–3:42 PM
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Abstract 
Author:
Mitch Mailman
(Brandeis University)
There is evidence indicating that the unjamming of frictionless, soft grain packings occurs at a critrical point, however, no correlation function associated with a diverging, static length scale has been identified. To better understand the nature of this transition, we consider the soft grain packing problem as a constraint satisfaction problem [1]. Jammed configurations are mechanically stable packings with non-zero pressure. Contact forces on each grain therefore satisfy the equations of mechanical equilibrium, which are a set of local constraints, as well as a global constraint from the pressure. In general when jammed, there are more contact forces than constraints, so that an ensemble of force networks exists [2] which satisfy the constraints. These force networks make up a high-dimensional solution space that shrinks to a point at the unjamming transition, suggesting that the unjamming transition can be considered an entropy vanishing transition. We explore a new type of ``point-to-set'' correlation function which has been used to identify non-obvious length scales in other constraint satisfaction problems [3], and show that it exhibits a diverging length scale. We compare and contrast this length scale with the well established ``isostatic length'' of Wyart et. al [4].\\[4pt] [1] F. Krzakala and J. Kurchan, PRE 76, 021122 (2007)\\[0pt] [2] J.H. Snoeijer et. al, PRE 70, 061306 (2004)\\[0pt] [3] A. Montanari and G. Semerjain, Journal of Stat. Phys, 125, 1 (2006)\\[0pt] [4] M. Wyart et. al, PRE 72, 051306 (2005)
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2011.MAR.T7.2