Fast Generation of Potentials for Self-Assembly of Particles

Fast Generation of Potentials for Self-Assembly of Particles

We address the inverse problem of designing isotropic pairwise particle interaction potentials that lead to the formation of a desired lattice when a system of particles is cooled. The design problem is motivated by the desire to produce materials with pre-specified structure and properties. We pres...

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Veröffentlicht in:arXiv.org 2009-05
Hauptverfasser: Philip du Toit, Grubits, Katalin, Marsden, Jerrold, Costiner, Sorin
Format: Artikel
Sprache:eng
Schlagworte:
Heuristic methods
Honeycomb construction
Inverse problems
Kagome lattice
Optimization
Particle interactions
Production planning
Self-assembly
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Zusammenfassung:We address the inverse problem of designing isotropic pairwise particle interaction potentials that lead to the formation of a desired lattice when a system of particles is cooled. The design problem is motivated by the desire to produce materials with pre-specified structure and properties. We present a heuristic computation-free geometric method, as well as a fast and robust trend optimization method that lead to the formation of high quality honeycomb lattices. The trend optimization method is particularly successful since it is well-suited to efficient optimization of the noisy and expensive objective functions encountered in the self-assembly design problem. We also present anisotropic potentials that robustly lead to the formation of the kagome lattice, a lattice that has not previously been obtained with isotropic potentials.
ISSN:2331-8422