Journal of the Korean Society for Precision Engineering

"Waveguide"

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Study on UV Energy Effects in High Aspect Ratio Patterning via the Self-propagating Photopolymer Waveguide (SPPW) Method: Jun Ho Song, Woo Young Kim, Seungwoo Shin, Seok Kim, Young Tae Cho; J. Korean Soc. Precis. Eng. 2025;42(9):757-762.
Published online September 1, 2025; DOI: https://doi.org/10.7736/JKSPE.025.041

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This study quantitatively examines the impact of ultraviolet (UV) intensity and energy on the formation of high aspect ratio (HAR) microstructures using the Self-Propagating Photopolymer Waveguide (SPPW) process. This mechanism relies on the self-focusing of UV light within a refractive index gradient, allowing the light to propagate and polymerize vertically beyond the initial exposure zone. Experiments were performed at UV intensities of 7.5, 12.5, and 17.5 mW/cm², with energy levels ranging from 0.0375 to 13.5 J/cm². The results indicated that a lower UV intensity of 7.5 mW/cm² produced uniform and vertically elongated structures, achieving a maximum aspect ratio of 12.26 at 0.9 J/cm². In contrast, higher UV intensities led to lateral over-curing, base expansion, and shape distortion, primarily due to rapid polymerization and the oxygen inhibition effect. These findings emphasize the importance of precisely controlling both UV intensity and energy to produce uniform, vertically aligned HAR microstructures, offering valuable insights for optimizing the SPPW process in future microfabrication applications.

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The Study on Improvement of Performance about PIM at Shape and Mechanical Interface of Waveguide Flange: Sang Hyun Kim, Soon Hyeong Kwon, Byung Jun Kim, Jeung Lee, Hwee-Seung Lee; J. Korean Soc. Precis. Eng. 2017;34(9):617-625.
Published online September 1, 2017; DOI: https://doi.org/10.7736/KSPE.2017.34.9.617

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Recently, with the development of the IT industry, technology for satellite communication network systems using multichannel, high-capacity data is getting increasingly popular. Especially in the field of defense, experts emphasize the necessity for research and development (R&D) to improve communication quality in order to facilitate Network-Centric Warfare (NCW) and increase mission efficiency through the use of satellite communication network systems. High power is required for the implementation of this technology, and its quality is greatly affected by Passive InterModulation Distortion (PIMD). In order to improve PIMD levels, the leakage characteristics of the system were analyzed with knowledge of the strong influence of the state of the flange joint that has been confirmed by years of experience and previous studies. In this paper, we analyzed various problems from the mechanical point of view in order to improve the radio frequency (RF) performance by minimizing PIMD in the X band, which is used for the satellite communication. Based on our findings, we propose the flange shape to achieve the test result of -150 dBm, which is an improvement from the existing PIM performance and reference level.