@article{ISI:000188316600032,
 abstract = {The far-from-equilibrium dynamics of two crystalline two-dimensional
monolayers driven past each other is studied using Brownian dynamics
simulations. While at very high and low driving rates the layers slide
past one another retaining their crystalline order, for intermediate
range of drives the system alternates irregularly between the
crystalline and fluidlike phases. A dynamical phase diagram in the space
of interlayer coupling and drive is obtained. A qualitative
understanding of this stochastic alternation between the liquidlike and
crystalline phases is proposed in terms of a reduced model within which
it can be understood as a stochastic resonance for the dynamics of
collective order parameter variables. This remarkable example of
stochastic resonance in a spatially extended system should be seen in
experiments which we propose in the paper.},
 article-number = {061402},
 author = {Das, M and Ananthakrishna, G and Ramaswamy, S},
 doi = {10.1103/PhysRevE.68.061402},
 eissn = {1550-2376},
 issn = {1539-3755},
 journal = {PHYSICAL REVIEW E},
 month = {DEC},
 number = {6, 1},
 times-cited = {8},
 title = {Collective stochastic resonance in shear-induced melting of sliding
bilayers},
 unique-id = {ISI:000188316600032},
 volume = {68},
 year = {2003}
}