Hierarchical Self-Assembly of Fractals with Signal-Passing Tiles

From self-assembly wiki
Revision as of 12:03, 21 June 2016 by \('"2\)'"7
(\(1) \)2 | \(3 (\)4) | \(5 (\)6)
Jump to navigation Jump to search

Published on: 2016/09/04

Abstract

In this extended abstract, we present high-level overviews of tile-based self-assembling systems capable of producing complex, infinite, aperiodic structures known as discrete self-similar fractals. Fractals have a variety of interesting mathematical and structural properties, and by utilizing the bottom-up growth paradigm of self-assembly to create them we not only learn important techniques for building such complex structures, we also gain insight into how similar structural complexity arises in natural self-assembling systems. Our results fundamentally leverage hierarchical assembly processes, and use as our building blocks square "tile" components which are capable of activating and deactivating their binding "glues" a constant number of times each, based only on local interactions. We provide the first constructions capable of building arbitrary discrete self-similar fractals at scale factor 1, and many at temperature 1 (i.e. "non-cooperatively"), including the Sierpinski triangle.

Authors

Jacob Hendricks, Meagan Olsen, Matthew J. Patitz, Trent A. Rogers, Hadley Thomas

File

http://arxiv.org/pdf/1606.01856v1