Relaxation approach for the generation of inhomogeneous distributions of uniformly sized particles

dc.contributor.author

Hunt, J

dc.contributor.author

Kundtz, N

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Landy, N

dc.contributor.author

Smith, DR

dc.date.accessioned

2011-04-15T16:46:52Z

dc.date.issued

2010-07-12

dc.description.abstract

For many applications in gradient index devices and photonic crystals, it is necessary to be able to design semicrystalline distributions of particles where the lattice constant of the distribution is an arbitrary function of position. We propose a method to generate such distributions which is physically motivated by a system of interacting particles, and apply it to the design and implementation of a microwave gradient index lens. While the demonstration was preformed at microwave wavelengths, this technique would also be particularly useful for designing devices for operation at IR and visible wavelengths where the fabrication of distributions of uniformly sized holes or columns is very easy. © 2010 American Institute of Physics.

dc.description.version

Version of Record

dc.identifier.issn

0003-6951

dc.identifier.uri

https://hdl.handle.net/10161/3238

dc.language.iso

en_US

dc.publisher

AIP Publishing

dc.relation.ispartof

Applied Physics Letters

dc.relation.isversionof

10.1063/1.3460914

dc.relation.journal

Applied Physics Letters

dc.title

Relaxation approach for the generation of inhomogeneous distributions of uniformly sized particles

dc.type

Journal article

duke.date.pubdate

2010-7-12

duke.description.issue

2

duke.description.volume

97

pubs.begin-page

24104

pubs.issue

2

pubs.organisational-group

Duke

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Electrical and Computer Engineering

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Pratt School of Engineering

pubs.publication-status

Published

pubs.volume

97

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