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466 results on '"Park, Jun-Hee"'

1. Remote sensing of soil moisture using Rydberg atoms and satellite signals of opportunity

Author

Arumugam, Darmindra, Park, Jun-Hee, Feyissa, Brook, Bush, Jack, and Nagaraja, Srinivas Prasad Mysore

Subjects
Physics - Applied Physics, Electrical Engineering and Systems Science - Signal Processing, Quantum Physics
Abstract

Spaceborne radar remote sensing of the earth system is essential to study natural and man-made changes in the ecosystem, water and energy cycles, weather and air quality, sea level, and surface dynamics. A major challenge with current approaches is the lack of broad spectrum tunability due to narrow band microwave electronics, that limit systems to specific science variable retrievals. This results in a significant limitation in studying dynamic coupled earth system processes such as surface and subsurface hydrology, where broad spectrum radar remote sensing is needed to sense multiple variables simultaneously. Rydberg atomic sensors are highly sensitive broad-spectrum quantum detectors that can be dynamically tuned to cover micro-to-millimeter waves with no requirement for band-specific electronics. Rydberg atomic sensors can use existing transmitted signals such as navigation and communication satellites to enable remote sensing. We demonstrate remote sensing of soil moisture, an important earth system variable, via ground-based radar reflectometry with Rydberg atomic systems. To do this, we sensitize the atoms to XM satellite radio signals and use signal correlations to demonstrate use of these satellite signals for remote sensing of soil moisture. Our approach provides a step towards satellite-based broad-spectrum Rydberg atomic remote sensing.

Published
2024

8. Octave bandwidth photonic fishnet-achromatic-metalens.

Author

Ndao, Abdoulaye, Hsu, Liyi, Ha, Jeongho, Park, Jun-Hee, Chang-Hasnain, Connie, and Kante, Boubacar

Subjects
Physical Sciences, Classical Physics, Affordable and Clean Energy
Abstract

Planar structured interfaces, also known as metasurfaces, are continuously attracting interest owing to their ability to manipulate fundamental attributes of light, including angular momentum, phase, or polarization. However, chromatic aberration, limiting broadband operation, has remained a challenge for metasurfaces-based optical components and imagers. The limitation stems from the intrinsic dispersion of existing materials and design principles. Here we report and experimentally demonstrate polarization-independent fishnet-achromatic-metalenses with measured average efficiencies over 70% in the continuous band from the visible (640 nm) to the infrared (1200 nm). Results of the scalable platform are enabling for applications requiring broad bandwidth and high efficiency including energy harvesting, virtual reality and information processing devices, or medical imaging.

Published
2020

10. All-dielectric metasurface cylindrical lens

Author

Ha, Jeongho, Ndao, Abdoulaye, Hsu, Liyi, Park, Jun-Hee, and Kante, Boubacar

Subjects
Physics - Optics
Abstract

Conventional optical components have been proposed to realize high-quality line focusing with uniform intensity distribution such as cylindrical lenses, segmented wedge-arrays, or a combination of prisms and spherical mirrors. However, numerous factors such as the manufacturing tolerances of conventional lenses or the need for precise alignment of the lenses cause wavefront aberrations that impact the performance of optical systems. These aforementioned limitations of conventional optical components affect the uniformity of the intensity distribution. Here, we numerically and experimentally demonstrate an integrable planar all-dielectric cylindrical lens for uniform line focusing. The lens has a NA of 0.247 and a measured uniformity of 0.92% at 800 nm.

Published
2018

17. Combi-Matrix Based on TiO2 Aerogel for Diagnosis of Sepsis Using Laser Desorption and Ionization Mass Spectrometry.

Author

Yun, Tae Gyeong, Song, Zhiquan, Kim, Moon-Ju, Park, Jun-Hee, Parale, Vinayak G., Kim, Hye Soo, Shin, Mi Hwa, Hwang, Haejin, Kang, Min-Jung, Park, Moo Suk, Park, Hyung-Ho, and Pyun, Jae-Chul

Abstract

To apply semiconductor nanostructures as a solid matrix for laser desorption/ionization-mass spectrometry, the nanostructures should exhibit ionization activity through photocatalytic reactions and desorption enhancement through photothermal conversion. Herein, TiO2 aerogels were synthesized using titanium-(IV) butoxide as a precursor, and a controlled porous structure was obtained by adjusting the ethanol content and annealing temperatures. The photocatalytic activity of the TiO2 aerogel was estimated using pseudo-first-order kinetics on methylene blue degradation reactions. To achieve further desorption/ionization properties, a combi-matrix was produced using the TiO2 aerogel and a conventional organic matrix, α-cyano-4-hydroxynnamic acid (CHCA). The enhanced ionization efficiency of the TiO2 aerogel combi-matrix was demonstrated along with an improved signal-to-noise ratio from other solid matrix combi-matrix systems. Meanwhile, the distribution of CHCA crystals in TiO2 aerogel with various annealing conditions was investigated by differential scanning calorimetry with the Gibbs–Thomson equation. The radius of CHCA crystals was minimized at 550 °C but increased steeply at heat treatment temperatures higher than 600 °C, implying a collapse in the pore structure of the TiO2 aerogel. Furthermore, the activation energy for melting the CHCA nanocrystals was calculated using the Arrhenius equation. These results showed that CHCA nanocrystals in a combi-matrix with the TiO2 aerogel after annealing at 550 °C could be most effectively melted with lower activation energy via the pore structure and the binary phased TiO2 aerogel. Finally, the combi-matrix based on TiO2 aerogel was applied for the analysis of the sera from sepsis patients (n = 40), systemic inflammatory response syndrome (SIRS) patients (n = 20), and healthy controls (n = 20), finding that the combi-matrix based on TiO2 aerogel could be effectively used for the diagnosis of sepsis using lysophosphatidylcholine (LPC-16) as a biomarker. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Study on Stream Cooperation Connected Smart Manufacturing in Textile Timely Production System

Author

Lee Jae-Yong, Lee Dae-Hee, Song Jae-Sung, Park Jun-Hee, Ryu Sung-Hun, and Park Jeung-Hyun

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

In general, the flow of detailed data through the physical sensing of the mechanical system and the analysis of the production process is important as well as the development of the CPS(cyber-physical system) system in smartizing the production plant. In this study, stream is composed of three main fields in order to make fabric factory as smart factory. The three streams are divided into a knitting process, a dyeing process, and a sewing process. It can be made into a system that can monitor and manage the fabric production process as an integrated system by connecting the three separated streams. Physical sensors are developed and applied to the textile machines used in the three streams, and software programs for collecting and delivering data was performed together to construct a system for data collection per stream.

Published
2018
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49. Cold‑pressed oil from Citrus aurantifolia inhibits the proliferation of vascular smooth muscle cells via regulation of PI3K/MAPK signaling pathways

Author

Song, Byeong-Wook, primary, Lee, Chang, additional, Park, Jun-Hee, additional, Kim, Bomi, additional, Lee, Seahyoung, additional, Lim, Soyeon, additional, Kim, Sang, additional, Choi, Jung-Won, additional, Kang, Misun, additional, Kang, Jung, additional, Lee, Sung-Suk, additional, Park, Mi-Jin, additional, Moon, Hanbyeol, additional, Hwang, Ki-Chul, additional, and Kim, Il-Kwon, additional

Published
2021
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