• Journal of the Korean Society of Radiology
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• v.16 no.5
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• pp.585-594
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• 2022

The detector for digital radiography testing, which is currently mainly used, consists of a detector with a flat structure, making it impossible to fully adhere to the digital radiography testing of the test object with curvature. In this study, a curved panel detector capable of adhering to curvature was fabricated to improve the quality of the digital image during the digital radiography testing of piping welds at industrial sites, and digital radiography images using flat and curved panel detectors were obtained for 6in pipes with different nominal thickness. As a result of the experiment, it was confirmed that the flat panel detector does not fully adhere to the pipe, resulting in a gap between the outer part of the pipe and the detector, resulting in a difference in the unsharpness and diffusion of the digital image. On the other hand, it was confirmed that the curved panel detector minimizes the gap between the pipe outer part and the detector, so that digital image diffusion is less than that of the flat panel detector. The higher the confidence of the image, the lower the quality and error in reading, so it is believed that higher quality images can be obtained than conventional flat panel detectors when using detectors that can be closely attached to the inspection object.

• The Journal of Korean Institute of Electromagnetic Engineering and Science
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• v.21 no.3
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• pp.278-284
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• 2010

In this paper, a millimeter-wave detector using zero-bias schottky diode is designed and fabricated at W-band. It consists of LNA(Low Noise Amplifier) and detector module to improve sensitivity. LNA case with a highly stop-band characteristic is designed to prevent the oscillation by LNA MMIC chip. Diode detector of planar structure is fabricated for the easy connection with LNA module and zero bias Schottky diode is utilized. In practice, the fabricated diode detector have shown the detection voltage of 20~500 mV to the RF input power of -45~-20 dBm. The proposed W-band detector can be applicable to the passive millimeter image system.

• Proceedings of the Korean Vacuum Society Conference
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• 2016.02a
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• pp.269-269
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• 2016

최근, 플렉서블 광전자소자 제작 기술의 눈부신 발전으로, 기존의 평면형 이미지 센서가 가지고 있는 여러가지 한계를 극복하기 위해 곡면형 이미지 센서 제작에 대한 다양한 연구가 진행되고 있다. 리소그래피, 물질 성장, 도포, 에칭 등의 대부분의 반도체 공정은 평면 기판에 기반한 공정 방법으로 곡면 구조의 이미지 센서를 제작하기에는 많은 어려움이 있다. 본 연구에서는 곡면형 이미지 센서의 제작을 위해 곡면 구조 위에서의 직접적인 공정 대신 평면 기판에서 단결정 실리콘을 이용해 전사 인쇄가 가능하고 수축이 가능한 초박막 구조의 이미지 센서를 제작한 후 이를 떼어내는 방식을 이용하였다. 이온 주입 및 건식 식각 공정을 통해 평면 SOI (Silicon on Insulator) 기판 위에 단일 광다이오드 배열 형태의 소자를 제작한 후 수 차례의 폴리이미드 층 도포 및 스퍼터링을 통한 금속 배선 공정을 통해 초박막 형태의 광 검출기를 완성한다. 이후 습식 식각 및 폴리디메틸실록산(PDMS) 스탬프를 이용한 전사 인쇄 공정을 통해 기판으로부터 디바이스를 분리하여 변형 가능한 형태의 이미지 센서를 얻을 수 있다. 이러한 박막형 이미지 센서는 유연한 재질로 인해 수축 및 팽창, 구부림과 같은 구조적 변형이 가능하게 되어 겹눈 구조 카메라, 튜너블 카메라 등과 같이 기존 방식의 반도체 공정으로는 구현할 수 없었던 다양한 이미징 시스템 개발에 적용될 수 있을 것으로 기대된다.

• Journal of Biomedical Engineering Research
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• v.18 no.4
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• pp.421-428
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• 1997

Magnetic field sensors made from superconducting quantum interference device (SQUID) are the most sensitive low-frequency sensors available, enabling measurements of extremely weak magnetic fields from the brain. Neuromagnetic measurements allow superior spatial resolution, compared with the present electric measurements, and superior temporal resolution, compared with the fMRl and PET, providing useful informations for the functional diagnoses of the brain. We developed a 4-channel SQUID system for neuromagnetic applications. The main features of the system are its simple readout electronics and compact pickup coil structure. A magnetically shielded room has been constructed for the reduction of environmental magnetic noises. The developed SQUID system has noise level lower than the magnetic noise from the brain. Magnetic field signals of the spontaneous r-rhythm activity and auditory evoked magnetic fields have been measured.