Joong Kyu Choi scite author profile

Joong Kyu Choi

2Publications

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15Citation Statements Given

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Ajou University

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High-Temperature Complex Refractive Index of Phase Change Recording Medium of Ge₂Sb₂Te₅ Determined Using Phase Change Static Tester and Spectroscopic Ellipsometer

Choi

Byun

et al. 2008

jjap

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We investigated the high-temperature optical properties of the optical phase change material Ge 2 Sb 2 Te 5 (GST) using an in situ ellipsometer equipped with a convetional heating chamber and using a spectroscopic ellipsometer combined with a phase change static tester. In addition, we compared the results for the high-temperature complex refractive indices of GST thin films determined using a spectroscopic ellipsometer after the samples were crystallized by the in situ and a phase-change random access memory (PRAM) methods. The ellipsometric constants and the RMS value of the surface roughness of the GST samples were measured by in situ ellipsometry and atomic force microscopy (AFM), respectively. Results showed wide variations at high-temperatures when the GST samples were crystallized by the in situ method. The complex refractive indices of GST thin films were consistent at mid-range temperatures up to 370 C for the two methods. In contrast, they showed a large variation at a higher temperature of $450 C for the in situ method and remained stable in the entire temperature range for the PRAM method. This indicates that the optical properties of GST thin film are affected by the film structure and protective layer for the in situ method but not for the PRAM method at high-temperatures. It is concluded that the combined use of the spectroscopic ellipsometer with the phase change static tester gives us more precise and consistent results not affected by either the film structure nor the protective material.

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Design and Fabrication of Low Cost Infrared Optical System Using Precision Glass Molding Lens Made by Chalcogenide Glass

Lee²,

Choi³

et al. 2012

Korean Journal of Optics and Photonics

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In this paper, for low cost infrared optical equipment, we design and fabricate an infrared optical system for an uncooled detector using PGM(Precision Glass Molding) lenses. The designed infrared optical system has a good athermalization, and the material of all of its lenses is a chalcogenide glass suitable for the PGM method. In addition, we also fabricate the same infrared optical system using SPDT(Single Point Diamond Turning) lenses in order to measure the optical performance of PGM lenses. We measure the MTF(Modulation Transfer Function) of the two infrared optical systems which use the PGM lenses and the SPDT lenses. And then we compare and analyze the images of them both. As a result, we find that they have only a very small difference in optical performance. If the use of PGM lenses increases, we expect to reduce the cost of infrared optical equipment.

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Joong Kyu Choi

High-Temperature Complex Refractive Index of Phase Change Recording Medium of Ge₂Sb₂Te₅ Determined Using Phase Change Static Tester and Spectroscopic Ellipsometer

Design and Fabrication of Low Cost Infrared Optical System Using Precision Glass Molding Lens Made by Chalcogenide Glass

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Joong Kyu Choi

High-Temperature Complex Refractive Index of Phase Change Recording Medium of Ge2Sb2Te5 Determined Using Phase Change Static Tester and Spectroscopic Ellipsometer

Design and Fabrication of Low Cost Infrared Optical System Using Precision Glass Molding Lens Made by Chalcogenide Glass

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Product

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High-Temperature Complex Refractive Index of Phase Change Recording Medium of Ge₂Sb₂Te₅ Determined Using Phase Change Static Tester and Spectroscopic Ellipsometer