Nonlinear Sciences – Pattern Formation and Solitons
Scientific paper
2011-11-12
Nonlinear Sciences
Pattern Formation and Solitons
submitted Sept 2011
Scientific paper
When a voltage is applied across a thin layer of cholesteric liquid crystal, fingers of cholesteric alignment can form and propagate in the layer. In computer simulation, based on experimental laboratory results, we demonstrate that these cholesteric fingers can solve selected problems of computational geometry, logic and arithmetics. We show that branching fingers approximate a planar Voronoi diagram, and non-branching fingers produce a convex subdivision of concave polygons. We also provide a detailed blue-print and simulation of a one-bit half-adder functioning on the principles of collision-based computing, where the implementation is via collision of liquid crystal fingers with obstacles and other fingers.
Adamatzky Andrew
Kitson Stephen
Lacy Costello Ben de
Matranga Mario Ariosto
Younger Daniel
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