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Your search keyword '"Geum, Dae-Myeong"' showing total 188 results
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188 results on '"Geum, Dae-Myeong"'

1. Room-temperature waveguide-integrated photodetector using bolometric effect for mid-infrared spectroscopy applications

Author

Shim, Joonsup, Lim, Jinha, Kim, Inki, Jeong, Jaeyong, Kim, Bong Ho, Kim, Seong Kwang, Geum, Dae-Myeong, and Kim, SangHyeon

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Waveguide-integrated mid-infrared (MIR) photodetectors are pivotal components for developing molecular spectroscopy applications, leveraging mature photonic integrated circuit (PIC) technologies. Despite various strategies, critical challenges still remain in achieving broadband photoresponse, cooling-free operation, and large-scale complementary-metal-oxide-semiconductor (CMOS)-compatible manufacturability. To leap beyond these limitations, the bolometric effect - a thermal detection mechanism - is introduced into the waveguide platform. More importantly, we pursue a free-carrier absorption (FCA) process in germanium (Ge) to create an efficient light-absorbing medium, providing a pragmatic solution for full coverage of the MIR spectrum without incorporating exotic materials into CMOS. Here, we present an uncooled waveguide-integrated photodetector based on a Ge-on-insulator (Ge-OI) PIC architecture, exploiting the bolometric effect combined with FCA. Notably, our device exhibits a broadband responsivity of ~12 mA/W across 4030-4360 nm (and potentially beyond), challenging the state of the art, while achieving a noise-equivalent power of 3.4x10^-9 W/Hz^0.5 at 4180 nm. We further demonstrate label-free sensing of carbon dioxide using our integrated photodetector and sensing waveguide on a single chip. This approach to room-temperature waveguide-integrated MIR photodetection, harnessing bolometry with FCA in Ge, not only facilitates the realization of fully integrated lab-on-a-chip systems with wavelength flexibility but also provides a blueprint for MIR PICs with CMOS-foundry-compatibility., Comment: 6 figures for the main manuscript and 14 figures for the supplementary information

Published
2024

12. Fully CMOS-Compatible Room-Temperature Waveguide-Integrated Bolometer Based on Germanium-on-Insulator Platform at Mid-Infrared Operating Beyond 4 μm

Author

Shim, Joonsup, primary, Lim, Jinha, additional, Kim, Inki, additional, Kim, Seong Kwang, additional, Ahn, Seung-Yeop, additional, Park, Juhyuk, additional, Jeong, Jaeyong, additional, Kim, Bong Ho, additional, Lee, Seunghyeon, additional, An, Jihwan, additional, Geum, Dae-Myeong, additional, and Kim, SangHyeon, additional

Published
2023
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13. Thermal Management in Multi-Finger GaN-on-Si HEMTs: Understanding and Mitigating Self-Heating and Thermal Crosstalk for Enhanced Device Reliability

Author

Jeong, Jaeyong, primary, Choi, Sung Joon, additional, Shim, Joonsup, additional, Kim, Eunjung, additional, Kim, Seong Kwang, additional, Kim, Bong Ho, additional, Kim, Joon Pyo, additional, Suh, Yoon-Je, additional, Beak, Woo Jin, additional, Geum, Dae-Myeong, additional, Koh, Yumin, additional, Kim, Donghyun, additional, and Kim, SangHyeon, additional

Published
2023
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15. Thermal Studies of 3-D Stacked InGaAs HEMTs and Mitigation Strategy of Self-Heating Effect Using Buried Metal Insertion

Author

Jeong, Jaeyong, Kim, Seong Kwang, Suh, Yoon-Je, Shim, Joonsup, Beak, Woo Jin, Choi, Sung Joon, Kim, Joon Pyo, Kim, Bong Ho, Geum, Dae-Myeong, Kim, Jongmin, and Kim, Sanghyeon

Abstract

Heterogenous and monolithic 3-D (M3D) integration of III-V RF devices on Si CMOS is a very attractive technology for future wireless communication systems. However, the self-heating effect, caused by limited heat dissipation, remains a significant bottleneck in implementing M3D integrated platforms. In this study, we fabricated both conventional 2-D planar InGaAs HEMTs and 3-D stacked InGaAs HEMTs to investigate and compare their respective self-heating characteristics using thermoreflectance microscopy (TRM). Our results revealed that 3-D stacked InGaAs HEMTs exhibit 40.2% higher thermal resistivity than 2-D planar InGaAs HEMTs. To address this issue, we proposed a back metal insertion, an M3D integration-compatible process. We fabricated 3-D stacked InGaAs HEMTs with back metal using three different layout options (without back metal, with local back metal, and with global back metal) to analyze the effectiveness of the back metal in providing a heat dissipation path. Our experiments demonstrated the effectiveness of a back metal structure in greatly reducing the self-heating of 3-D stacked devices. These results provide valuable guidance for enhancing the heat management of the M3D RF platform by providing information on the self-heating characteristics in the 3-D stacked devices.

Published
2024
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16. Low Operating Voltage and Immediate Read‐After‐Write of HZO‐Based Si Ferroelectric Field‐Effect Transistors with High Endurance and Retention Characteristics

Author

Kim, Bong Ho, primary, Kuk, Song‐Hyeon, additional, Kim, Seong Kwang, additional, Kim, Joon Pyo, additional, Suh, Yoon‐Je, additional, Jeong, Jaeyong, additional, Lee, Chan Jik, additional, Geum, Dae‐Myeong, additional, Yoon, Young Joon, additional, and Kim, Sang Hyeon, additional

Published
2023
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19. Low Operating Voltage and Immediate Read‐After‐Write of HZO‐Based Si Ferroelectric Field‐Effect Transistors with High Endurance and Retention Characteristics.

Author

Kim, Bong Ho, Kuk, Song‐Hyeon, Kim, Seong Kwang, Kim, Joon Pyo, Suh, Yoon‐Je, Jeong, Jaeyong, Lee, Chan Jik, Geum, Dae‐Myeong, Yoon, Young Joon, and Kim, Sang Hyeon

Subjects
FIELD-effect transistors, LOW voltage systems, ELECTRIC potential
Abstract

The study demonstrates HfZrOx (HZO)‐based Si ferroelectric field‐effect transistors (FeFETs) with a low operating voltage (1.5 V) and immediate read‐after‐write operation (100 ns) via HZO thickness scaling, electron‐beam‐irradiation (EBI) treatment, and interfacial layer (IL) scavenging. With these three strategies, reduced operating voltage, immediate read‐after‐write capability, and improved endurance (>108 cycles) and retention (extrapolated 10‐year) characteristics are achieved in FeFETs. The improved characteristics of FeFETs are attributed to the reduced operating voltage by HZO thickness scaling, the ferroelectric orthorhombic phase‐oriented crystallization by EBI treatment, and the reduced gate voltage drop across the IL and reduced depolarization field by the IL scavenging. It is believed that this work contributes to the development of low‐power and fast‐read FeFETs. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Heavily Doped Channel Carrier Mobility in β-Ga2O3 Lateral Accumulation MOSFET

Author

Kuk, Song-Hyeon, Choi, Seongjun, Kim, Hyeong Yun, Ko, Kyul, Jeong, Jaeyong, Geum, Dae-Myeong, Han, Jae-Hoon, Park, Ji-Hyeon, Jeon, Dae-Woo, and Kim, Sang-Hyeon

Abstract

High critical field ( ${E}_{c}$ ) and low specific ON-resistance ( ${R}_{ON}$ ) $\beta $ -Ga2O3 devices such as accumulation channel metal-oxide-semiconductor field-effect-transistors (MOSFET) have been reported for high-power and extreme environment applications. Channel carrier mobility is a critical factor to reduce ${R}_{ON}$ , but a lack of studies on channel mobility in $\beta $ -Ga2O3 MOSFETs hinders understanding the electrical characteristics. We study carrier mobility in the channels with various doping concentrations using MOS-gated Hall measurements. Our MOSFET achieves a record-high peak channel mobility ( $\mu _{peak}$ ) of 143 cm2/ $\text{V}\cdot \text{s}$ , to the best of our knowledge. Moreover, we suggest that further improvements can be made by enhancing Coulomb scattering-limited mobility ( $\mu _{C}$ ).

Published
2024
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42. Oxygen Scavenging in HfZrOx‐Based n/p‐FeFETs for Switching Voltage Scaling and Endurance/Retention Improvement.

Author

Kim, Bong Ho, Kuk, Song‐Hyeon, Kim, Seong Kwang, Kim, Joon Pyo, Suh, Yoon‐Je, Jeong, Jaeyong, Geum, Dae‐Myeong, Baek, Seung‐Hyub, and Kim, Sang Hyeon

Subjects
FIELD-effect transistors, VOLTAGE, LEAD titanate, OXYGEN
Abstract

The authors demonstrate improved switching voltage, retention, and endurance properties in HfZrOx (HZO)‐based n/p‐ferroelectric field‐effect transistors (FeFETs) via oxygen scavenging. Oxygen scavenging using titanium (Ti) in the gate stack successfully reduce the thickness of interfacial oxide between HZO and Si and the oxygen vacancy at the bottom interface of the HZO film. The n/p‐FeFETs with scavenging exhibit an immediate read‐after‐write with stable retention property and improved endurance property. In particular, n‐FeFET with scavenging exhibits excellent endurance property that does not show breakdown up to 1010 cycles. The charge trapping model in the n/p‐FeFETs is presented to explain why the effect of oxygen scavenging is more pronounced in n‐FeFET than in p‐FeFET. Finally, further switching voltage scaling potential is estimated by scavenging and HZO thickness scaling. It is believed that this work contributes to the development of low‐power FeFET and the understanding of FeFET operation. [ABSTRACT FROM AUTHOR]

Published
2023
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