Multi-objective analysis of multi-layered core-shell nanoparticles

Sawyer D. Campbell; Jogender Nagar; Pingjuan L. Werner; Douglas H. Werner

doi:10.23919/URSIGASS.2017.8105309

Multi-objective analysis of multi-layered core-shell nanoparticles

Sawyer D. Campbell, Jogender Nagar, Pingjuan L. Werner, Douglas H. Werner

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Scopus citations

Abstract

Multi-layered spherical nanoparticles are known to be able to achieve large electric field enhancements via highly resonant electrically small geometries. While the resonant properties of these nanoparticles can be tailored by altering their material geometries, their scattered far-fields can subsequently be tailored as well. This is accomplished through a fortuitous superposition of electric and magnetic multipoles that yield the desired far-field patterns. In this study, the tradeoffs between traditional far field quantities, directivity and gain, are analyzed for a representative multi-layer configuration.

Original language	English (US)
Title of host publication	2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	1-3
Number of pages	3
ISBN (Electronic)	9789082598704
DOIs	https://doi.org/10.23919/URSIGASS.2017.8105309
State	Published - Nov 10 2017
Event	32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017 - Montreal, Canada Duration: Aug 19 2017 → Aug 26 2017

Publication series

Name	2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017
Volume	2017-January

Other

Other	32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017
Country/Territory	Canada
City	Montreal
Period	8/19/17 → 8/26/17

All Science Journal Classification (ASJC) codes

Computer Networks and Communications
Instrumentation
Radiation

Access to Document

10.23919/URSIGASS.2017.8105309

Cite this

Campbell, S. D., Nagar, J., Werner, P. L., & Werner, D. H. (2017). Multi-objective analysis of multi-layered core-shell nanoparticles. In 2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017 (pp. 1-3). (2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017; Vol. 2017-January). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.23919/URSIGASS.2017.8105309

Campbell, Sawyer D. ; Nagar, Jogender ; Werner, Pingjuan L. et al. / Multi-objective analysis of multi-layered core-shell nanoparticles. 2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. pp. 1-3 (2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017).

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title = "Multi-objective analysis of multi-layered core-shell nanoparticles",

abstract = "Multi-layered spherical nanoparticles are known to be able to achieve large electric field enhancements via highly resonant electrically small geometries. While the resonant properties of these nanoparticles can be tailored by altering their material geometries, their scattered far-fields can subsequently be tailored as well. This is accomplished through a fortuitous superposition of electric and magnetic multipoles that yield the desired far-field patterns. In this study, the tradeoffs between traditional far field quantities, directivity and gain, are analyzed for a representative multi-layer configuration.",

author = "Campbell, {Sawyer D.} and Jogender Nagar and Werner, {Pingjuan L.} and Werner, {Douglas H.}",

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Campbell, SD, Nagar, J, Werner, PL & Werner, DH 2017, Multi-objective analysis of multi-layered core-shell nanoparticles. in 2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017. 2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017, vol. 2017-January, Institute of Electrical and Electronics Engineers Inc., pp. 1-3, 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017, Montreal, Canada, 8/19/17. https://doi.org/10.23919/URSIGASS.2017.8105309

Multi-objective analysis of multi-layered core-shell nanoparticles. / Campbell, Sawyer D.; Nagar, Jogender; Werner, Pingjuan L. et al.
2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017. Institute of Electrical and Electronics Engineers Inc., 2017. p. 1-3 (2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017; Vol. 2017-January).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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AB - Multi-layered spherical nanoparticles are known to be able to achieve large electric field enhancements via highly resonant electrically small geometries. While the resonant properties of these nanoparticles can be tailored by altering their material geometries, their scattered far-fields can subsequently be tailored as well. This is accomplished through a fortuitous superposition of electric and magnetic multipoles that yield the desired far-field patterns. In this study, the tradeoffs between traditional far field quantities, directivity and gain, are analyzed for a representative multi-layer configuration.

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Campbell SD, Nagar J, Werner PL , Werner DH. Multi-objective analysis of multi-layered core-shell nanoparticles. In 2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017. Institute of Electrical and Electronics Engineers Inc. 2017. p. 1-3. (2017 32nd General Assembly and Scientific Symposium of the International Union of Radio Science, URSI GASS 2017). doi: 10.23919/URSIGASS.2017.8105309

Multi-objective analysis of multi-layered core-shell nanoparticles

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