Electromagnetic design search and optimisation of photonic bandgap devices on distributed computational resources
Electromagnetic design search and optimisation of photonic bandgap devices on distributed computational resources
Photonic crystals are devices with periodically modulated dielectric constant, designed to exhibit band gaps in a frequency spectrum in which electromagnetic waves cannot propagate. Tuning the properties of these structures to achieve precise band gaps before fabrication is of high interest to photonic crystal manufacturers. In this paper, we present the process of finding and optimising a photonic crystal design using a high-throughput Condor-based compute cluster and transparent database technology for easy storage, retrieval and reuse of the created designs. We also demonstrate how a band gap diagram can easily be obtained on a compute cluster when using the developed user interface technology. The optimisation process can easily be adapted to other problem areas
photonic crystal bandgap modelling on condor compute clusters with database technology
0863414001
103-104
Institution of Engineering and Technology
Molinari, M.
47944a31-9242-4dcf-a527-40309e104fbf
Thomas, K.S.
b107015f-c7d9-42cc-b87b-207c49e5369a
Cox, S.J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
April 2004
Molinari, M.
47944a31-9242-4dcf-a527-40309e104fbf
Thomas, K.S.
b107015f-c7d9-42cc-b87b-207c49e5369a
Cox, S.J.
0e62aaed-24ad-4a74-b996-f606e40e5c55
Molinari, M., Thomas, K.S. and Cox, S.J.
(2004)
Electromagnetic design search and optimisation of photonic bandgap devices on distributed computational resources.
In Proceedings of the Fifth IEE International Conference on Computation in Electromagnetics.
Institution of Engineering and Technology.
.
(doi:10.1049/cp:20040465).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Photonic crystals are devices with periodically modulated dielectric constant, designed to exhibit band gaps in a frequency spectrum in which electromagnetic waves cannot propagate. Tuning the properties of these structures to achieve precise band gaps before fabrication is of high interest to photonic crystal manufacturers. In this paper, we present the process of finding and optimising a photonic crystal design using a high-throughput Condor-based compute cluster and transparent database technology for easy storage, retrieval and reuse of the created designs. We also demonstrate how a band gap diagram can easily be obtained on a compute cluster when using the developed user interface technology. The optimisation process can easily be adapted to other problem areas
Text
molinari_EMOptPBGDistComp_CEM_2004_p103-104.pdf
- Accepted Manuscript
More information
Published date: April 2004
Venue - Dates:
Fifth IEE Conference on Computation in Electromagnetics (CEM 2004), Stratford-upon-Avon, UK, 2004-04-19 - 2004-04-22
Keywords:
photonic crystal bandgap modelling on condor compute clusters with database technology
Identifiers
Local EPrints ID: 45810
URI: http://eprints.soton.ac.uk/id/eprint/45810
ISBN: 0863414001
PURE UUID: f4c77ff7-75d7-4a1f-9ee2-ab5a894b1d2b
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Date deposited: 12 Apr 2007
Last modified: 15 Mar 2024 09:13
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Contributors
Author:
M. Molinari
Author:
K.S. Thomas
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