note = "",
project = "sawtooth simulation",
}
+
+@article{Kroy07,
+ author={Klaus Kroy and Jens Glaser},
+ title={The glassy wormlike chain},
+ journal={New Journal of Physics},
+ volume={9},
+ number={11},
+ pages={416},
+ year={2007},
+ abstract={We introduce a new model for the dynamics of a wormlike chain (WLC) in an environment that gives rise to a rough free energy landscape, which we name the glassy WLC. It is obtained from the common WLC by an exponential stretching of the relaxation spectrum of its long-wavelength eigenmodes, controlled by a single parameter \\boldsymbol{\\cal E} . Predictions for pertinent observables such as the dynamic structure factor and the microrheological susceptibility exhibit the characteristics of soft glassy rheology and compare favourably with experimental data for reconstituted cytoskeletal networks and live cells. We speculate about the possible microscopic origin of the stretching, implications for the nonlinear rheology, and the potential physiological significance of our results.},
+ url={http://stacks.iop.org/1367-2630/9/416},
+ eprint = "http://www.iop.org/EJ/article/1367-2630/9/11/416/njp7_11_416.pdf",
+ doi = "10.1088/1367-2630/9/11/416",
+ note = "Has short section on WLC relaxation time in the weakly bending limit.",
+}