Boundary integral equation method for resonances in gradient index cavities designed by conformal transformation optics

Jung Wan Ryu; Jinhang Cho; Soo Young Lee; Yushin Kim; Sang Jun Park; Sunghwan Rim; Muhan Choi; Inbo Kim

doi:10.1038/s41598-019-55572-2

Boundary integral equation method for resonances in gradient index cavities designed by conformal transformation optics

Jung Wan Ryu
, Jinhang Cho
, Soo Young Lee
, Yushin Kim
, Sang Jun Park
, Sunghwan Rim
, Muhan Choi
, Inbo Kim

School of Electronics Engineering

Institute for Basic Science
Kyungpook National University
Korea University

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

3 Scopus citations

Abstract

In the case of two-dimensional gradient index cavities designed by the conformal transformation optics, we propose a boundary integral equation method for the calculation of resonant mode functions by employing a fictitious space which is reciprocally equivalent to the physical space. Using the Green’s function of the interior region of the uniform index cavity in the fictitious space, resonant mode functions and their far-field distributions in the physical space can be obtained. As a verification, resonant modes in limaçon-shaped transformation cavities were calculated and mode patterns and far-field intensity distributions were compared with those of the same modes obtained from the finite element method.

Original language	English
Article number	19684
Journal	Scientific Reports
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41598-019-55572-2
State	Published - 1 Dec 2019

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title = "Boundary integral equation method for resonances in gradient index cavities designed by conformal transformation optics",

abstract = "In the case of two-dimensional gradient index cavities designed by the conformal transformation optics, we propose a boundary integral equation method for the calculation of resonant mode functions by employing a fictitious space which is reciprocally equivalent to the physical space. Using the Green{\textquoteright}s function of the interior region of the uniform index cavity in the fictitious space, resonant mode functions and their far-field distributions in the physical space can be obtained. As a verification, resonant modes in lima{\c c}on-shaped transformation cavities were calculated and mode patterns and far-field intensity distributions were compared with those of the same modes obtained from the finite element method.",

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AU - Ryu, Jung Wan

AU - Cho, Jinhang

AU - Lee, Soo Young

AU - Kim, Yushin

AU - Park, Sang Jun

AU - Rim, Sunghwan

AU - Choi, Muhan

AU - Kim, Inbo

PY - 2019/12/1

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N2 - In the case of two-dimensional gradient index cavities designed by the conformal transformation optics, we propose a boundary integral equation method for the calculation of resonant mode functions by employing a fictitious space which is reciprocally equivalent to the physical space. Using the Green’s function of the interior region of the uniform index cavity in the fictitious space, resonant mode functions and their far-field distributions in the physical space can be obtained. As a verification, resonant modes in limaçon-shaped transformation cavities were calculated and mode patterns and far-field intensity distributions were compared with those of the same modes obtained from the finite element method.

AB - In the case of two-dimensional gradient index cavities designed by the conformal transformation optics, we propose a boundary integral equation method for the calculation of resonant mode functions by employing a fictitious space which is reciprocally equivalent to the physical space. Using the Green’s function of the interior region of the uniform index cavity in the fictitious space, resonant mode functions and their far-field distributions in the physical space can be obtained. As a verification, resonant modes in limaçon-shaped transformation cavities were calculated and mode patterns and far-field intensity distributions were compared with those of the same modes obtained from the finite element method.

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Boundary integral equation method for resonances in gradient index cavities designed by conformal transformation optics

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