Myung-Hyun Lee
Sungkyunkwan University
276 Papers
2.2K Citations
Myung-Hyun Lee is an academic researcher from Sungkyunkwan University. The author has contributed to research in topics: Surface plasmon polariton & Waveguide (optics). The author has an hindex of 30, co-authored 269 publications. Previous affiliations of Myung-Hyun Lee include Electronics and Telecommunications Research Institute & Kyungsung University.
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Papers
Polyamic alkyl ester system promising for side-chain electro-optic polymer
TL;DR: In this article, a polyamic alkyl ester was examined for the first time as a new candidate for an electro-optic (EO) polymer and the dipole orientation in the film was slightly aligned without a poling process, showing ∼5 pm/V.
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Right-Angle-Bent CPW for the Application of the Driver-Amplifier-Integrated 40 Gbps TW-EML Module
TL;DR: In this paper, a right-angle-bent coplanar waveguide (CPW) was developed for the application of the driver amplifier-integrated (DAI) 40 Gbps traveling wave electroabsorption modulated laser module.
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Temperature dependence of symmetric and asymmetric structured Au stripe waveguides
Suntak Park,Min-su Kim,Jung Jin Ju,Jin Tae Kim,Jin Tae Kim,Seung Koo Park,Jong-Moo Lee,Wook-Jae Lee,Myung-Hyun Lee +8 more
TL;DR: In this article, the thermal effects on pigtailed 22nm-thick, 5μm-wide and 1-cm-long Au stripe long-range surface plasmon polariton (LRSPP) waveguides, embedded in polymer/polymer layers and in polysilica layers, are theoretically and experimentally demonstrated.
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Alkyl sulfone-containing optical polyimide for an efficient wavelength conversion
Jung Yun Do,S.K Park,Jung Jin Ju,Min-su Kim,Suntak Park,Myung-Hyun Lee,B.G. Kim,Myung Yung Jeong +7 more
TL;DR: In this article, the optical nonlinearity of organic chromophore derivatives has been investigated to get a high optical non-linearity and low optical loss for nonlinear optical devices.
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Gold Stripe Optical Waveguides Fabricated by a Novel Double-Layered Liftoff Process
TL;DR: To fabricate uniform and reliable thin gold stripes that provide low-loss optical waveguides, a novel liftoff process placing an additional SiN x layer under conventional photoresists is developed, which improves the propagation losses about two times compared with that incurred by the conventional image-reversal process.
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