### Session J53: Disordered Systems: Jamming

11:15 AM–2:15 PM, Tuesday, February 28, 2012
Room: 153B

Chair: Patrick Charbonneau, Duke University

Abstract ID: BAPS.2012.MAR.J53.15

### Abstract: J53.00015 : Tricriticality in constraint percolation

2:03 PM–2:15 PM

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#### Authors:

L. Cao
(Physics Department, Syracuse University)

J. M. Schwarz
(Physics Department, Syracuse University)

Constraint percolation goes beyond ordinary percolation to include constraints on the occupation of sites/bonds. For instance, $k$-core site percolation implements a geometric constraint requiring each occupied vertex on a network have at least $k$ occupied neighboring vertices. It turns out that the percolation transition in such a model is essentially equivalent to the study of a dynamical glass transition in the Fredrickson-Andersen model, one of the models underlying the kinetically-constrained approach to the glass transition. We study hetereogenous $k$-core bond percolation on a random network with $f$ denoting the probability of a $k=2$-core vertex and $1-f$ the probability of a $k=3$-core vertex. This model corresponds to a hetereogeneous extension of the Frederickson-Anderson model. For $f=1$, the percolation transition is continuous, while for $f=0$, it is discontinuous. Using a master equation approach, we show that there exists a tricritical point at $f=1/2$ with a new order parameter exponent of unity. Our results are consistent with other mean field results obtained via a different method. We also look for tricriticality beyond mean field by investigating another constraint percolation model dubbed force-balance percolation.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2012.MAR.J53.15