Kyoung-Youm Kim scite author profile

Kyoung-Youm Kim

5Publications

77Citation Statements Received

67Citation Statements Given

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126

Affiliations

Sejong University, Optica

Publications

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Optical Modeling and Analysis of Organic Solar Cells with Coherent Multilayers and Incoherent Glass Substrate Using Generalized Transfer Matrix Method

Jung

Kim

Lee

et al. 2011

Jpn. J. Appl. Phys.

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We present optical modeling and physical analysis results of thin-film organic solar cells (OSCs) based on a generalized transfer matrix method, which can calculate, with a simple matrix form, the mixed coherent and incoherent interaction of an incoherent glass substrate with other coherent layers. The spatial distribution of the electric field intensity, power density, and power dissipation are calculated in both coherent and incoherent layers with respect to the optical spacer thickness. By decomposing the power density and power dissipation into forward-propagating, backward-propagating, and their interference components, we demonstrate that the dependence of the spacer thickness on the total device reflectance plays an important role in determining the light absorption efficiency of the OSC.

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Relation of the angular momentum of surface modes to the position of their power-flow center

Kim¹,

Wang²

2014

Opt. Express

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We show that the value of the total angular momentum (AM) carried by a surface mode can be interpreted as representing the transverse position of the center or balance point of the power flow through the mode. Especially in the lossless cases, the value of the Abraham AM per unit power (multiplied by the square of the speed of light in vacuum) is exactly the same as the transverse position of this power-flow center. However, the Minkowski counterpart becomes proportional to that position with a coefficient in the form of 1 + η, where η is determined mainly by the constitutive parameters of media.

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Optical Modeling and Analysis of Organic Solar Cells with Coherent Multilayers and Incoherent Glass Substrate Using Generalized Transfer Matrix Method

Jung

Kim

Lee

et al. 2011

Jpn. J. Appl. Phys.

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Accuracy balancing for the finite-difference-based solution of the discrete Wigner transport equation

Kim

Tang

2017

J Comput Electron

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Theoretical comparison of the excitation efficiency of waveguide and surface plasmon modes between quantum-mechanical and electromagnetic optical models of organic light-emitting diodes

Kang

Kim

2018

Opt. Express

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Kyoung-Youm Kim

Optical Modeling and Analysis of Organic Solar Cells with Coherent Multilayers and Incoherent Glass Substrate Using Generalized Transfer Matrix Method

Relation of the angular momentum of surface modes to the position of their power-flow center

Optical Modeling and Analysis of Organic Solar Cells with Coherent Multilayers and Incoherent Glass Substrate Using Generalized Transfer Matrix Method

Accuracy balancing for the finite-difference-based solution of the discrete Wigner transport equation

Theoretical comparison of the excitation efficiency of waveguide and surface plasmon modes between quantum-mechanical and electromagnetic optical models of organic light-emitting diodes

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