Internal electric-field intensity distribution of a monolayer of periodically arrayed dielectric spheres

Y. Kurokawa; Y. Jimba; H. Miyazaki

doi:10.1103/PhysRevB.70.155107

Internal electric-field intensity distribution of a monolayer of periodically arrayed dielectric spheres

Y. Kurokawa, Y. Jimba, H. Miyazaki

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

Theoretical analysis is given for the internal electric-field distribution of two-dimensional periodic dielectric spheres by extending the vector Korringa-Kohn-Rostoker method. It is shown that the internal electric-field intensity distribution of the monolayer with high dielectric constant is in good agreement with that of an isolated sphere at the Mie resonance. In contrast, the field distribution of the monolayer with low dielectric constant is complicated and strongly influenced by the interaction between spheres. Our results show that the internal electric field of the monolayer presents important information about the origin of each eigenstate.

Original language	English
Article number	155107
Pages (from-to)	155107-1-155107-5
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	70
Issue number	15
DOIs	https://doi.org/10.1103/PhysRevB.70.155107
Publication status	Published - 2004 Oct
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics

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10.1103/PhysRevB.70.155107

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abstract = "Theoretical analysis is given for the internal electric-field distribution of two-dimensional periodic dielectric spheres by extending the vector Korringa-Kohn-Rostoker method. It is shown that the internal electric-field intensity distribution of the monolayer with high dielectric constant is in good agreement with that of an isolated sphere at the Mie resonance. In contrast, the field distribution of the monolayer with low dielectric constant is complicated and strongly influenced by the interaction between spheres. Our results show that the internal electric field of the monolayer presents important information about the origin of each eigenstate.",

author = "Y. Kurokawa and Y. Jimba and H. Miyazaki",

note = "Funding Information: The authors would like to thank K. Ohtaka, S. Yamaguti, H. T. Miyazaki, and Y. Segawa for useful comments and valuable discussion. This work was supported by a Grant-in-Aid for Scientific Research from the Ministry of Education, Calture, Sports, Science, and Technology.",

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T1 - Internal electric-field intensity distribution of a monolayer of periodically arrayed dielectric spheres

AU - Kurokawa, Y.

AU - Jimba, Y.

AU - Miyazaki, H.

N1 - Funding Information: The authors would like to thank K. Ohtaka, S. Yamaguti, H. T. Miyazaki, and Y. Segawa for useful comments and valuable discussion. This work was supported by a Grant-in-Aid for Scientific Research from the Ministry of Education, Calture, Sports, Science, and Technology.

PY - 2004/10

Y1 - 2004/10

N2 - Theoretical analysis is given for the internal electric-field distribution of two-dimensional periodic dielectric spheres by extending the vector Korringa-Kohn-Rostoker method. It is shown that the internal electric-field intensity distribution of the monolayer with high dielectric constant is in good agreement with that of an isolated sphere at the Mie resonance. In contrast, the field distribution of the monolayer with low dielectric constant is complicated and strongly influenced by the interaction between spheres. Our results show that the internal electric field of the monolayer presents important information about the origin of each eigenstate.

AB - Theoretical analysis is given for the internal electric-field distribution of two-dimensional periodic dielectric spheres by extending the vector Korringa-Kohn-Rostoker method. It is shown that the internal electric-field intensity distribution of the monolayer with high dielectric constant is in good agreement with that of an isolated sphere at the Mie resonance. In contrast, the field distribution of the monolayer with low dielectric constant is complicated and strongly influenced by the interaction between spheres. Our results show that the internal electric field of the monolayer presents important information about the origin of each eigenstate.

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Internal electric-field intensity distribution of a monolayer of periodically arrayed dielectric spheres

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