Journal article
Pulling adsorbed self-avoiding walks from a surface
AJ Guttmann, I Jensen, SG Whittington
Journal of Physics A Mathematical and Theoretical | Published : 2014
Abstract
We consider a self-avoiding walk model of polymer adsorption where the adsorbed polymer can be desorbed by the application of a force, concentrating on the case of the square lattice. Using series analysis methods we investigate the behaviour of the free energy of the system when there is an attractive potential with the surface and a force f applied at the last vertex, normal to the surface, and extract the phase boundary between the ballistic and adsorbed phases. We believe this to be exact to graphical accuracy. We give precise estimates of the location of the transition from the free phase to the ballistic phase, which we find to be at yc = exp (f/kBT c) = 1, and from the free phase to t..
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Awarded by Australian Research Council
Funding Acknowledgements
The authors would like to acknowledge helpful conversations with Enzo Orlandini, and help with the preparation of the data files by Jason Whyte. This research was partially supported by NSERC of Canada. The computations for this work were supported by an award to IJ under the Merit Allocation Scheme on the NCI National Facility at the Australian National University. IJ and AJG were supported under the Australian Research Council's Discovery Projects funding scheme by the grants DP120101593 and DP120100939 respectively. We thank Cornell Creative Machines Lab for making available the program Eurequa [34].