• 한국진공학회:학술대회논문집
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• 한국진공학회 2011년도 제40회 동계학술대회 초록집
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• pp.421-422
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• 2011

The first part is about development of a liquid target for a neutron source, which is designed to overcome many of the limitations of traditional beam-target neutron generators by utilizing a liquid target neutron source. One of the most critical aspects of the beam-target neutron generator is the target integrity under the beam exposure. A liquid target can be a good solution to overcome damage to the target such as target erosion and depletion of hydrogen isotopes in the active layer, especially for the one operating at high neutron fluxes with no need for water cooling. There is no inherent target lifetime for the liquid target neutron generator when used with continuous refreshment of the target surface exposed to the energetic beam. In this work, liquid target containing hydrogen has been developed and tested in vacuum environment. Potentially, liquid targets could allow a point neutron source whose spatial extension is on the order of 1 to $10{\mu}m$. And the second is about the vacuum ultraviolet (VUV) spectrometer which is designed as a five-channel spectral system for ITER main plasma measurement. To develop and verify the design, a two-channel prototype system was fabricated with No. 3 (14.4 nm~31.8 nm) and No. 4 (29.0 nm~60.0 nm) among the five channels. For test of the prototype system, a hollow cathode lamp is used as a light source. The system is composed of a collimating mirror to collect the light from source to slit, and two holographic diffraction gratings with toroidal geometry to diffract and also to collimate the light from the common slit to detectors. The two gratings are positioned at different optical distances and heights as designed. To study the appropriate detector for ITER VUV system, two different electronic detectors of the back-illuminated charge coupled device and the micro-channel plate electron multiplier were installed and the performance has been investigated and compared in the same experimental conditions. The overall system performance was verified by measuring the spectrums.

• 대한전자공학회논문지
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• 제16권4호
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• pp.36-46
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• 1979

본 연구에서는 N -채널 실리콘 게이트 제작기술에 의하여 일련의 크기를 가지는 커페시터와 트렌지스터들이 제작되었다. 그 결과 다양한 이온 주입 조걸, 즉 B 의 경우 에너지 30keV∼60keV와 도오스 3 × 10 ~ 5 × 10 개/㎠ 그리고 P 의 경우 에너지 1001keV∼ 175keV와 4 ×10 ~ 7×11개/㎠ 도오스 영역에서 이들에 대한 D.C. 인자들의 측정치들이 이론적인 계산치들과 비상, 분석되어 있다. 이 D.C. 인자들에는 threshold전압, 공핍층의 폭, 게이트 산화물 두께, 표면상태, 가동 하전입자 밀도, 전자의 이동도 그리고 마지막으로 누설전류가 있는데, 이중 실제 MOS의 제작에 있어서 특허 중요한 threshold전압에 있어서는, 커어브트레이서와 C - V plot을 통하여 측정된 값들이 실제 재산에서 이용된 SUPREM II 컴퓨우터 프로그램에 의한 결과와 훌륭히 접근하고 있다. 그 밖에 여기나온 D.C.인자들 중에서 도오핑 수준은 기판의 역 게이트 바이어스에서 threshold전압들로 부터 계산된 것이고, 역전도는 정의된 subthreshold 기울기로 부터 추산된 것임을 밝혀 둔다. 마지막으로 이와같은 D. C. 시험 결과들을 종합적으로 평가해 볼 때 만들어진 커페시터와 트렌지스터들이 N -채널 MOS I. C. 기억소자용으로 적합함을 보여주고 있다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2013년도 제45회 하계 정기학술대회 초록집
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• pp.298-298
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• 2013

Finding renewable and clean energy resources is essential research to solve global warming and depletion of fossil fuels in modern society. Recently, complex harvesting of energy from multiple sources is available in our living environments using a single device has become highly desirable, representing a new trend in energy technologies. We report that when simultaneously driving the fusion and composite cells of two or more types, it is possible to make an affect the other cells to obtain a greater synergistic effect. To understand the coupling effect of photovoltaic and piezoelectric device, we fabricate the serially integrated hybrid cell (s-HC) based on organic solar cell (OSC) and piezoelectric nanogenerator (PNG). The size of increased voltage peaks when OSC and PNG are working on is larger than the case when only PNG is working. This voltage difference is the Voc change of OSC, not the voltage change of PNG and current density difference between these two cases is manifested more clearly. When the OSC and PNG are working in s-HC at the same time, piezoelectric potential (VPNG) is generated in ZnO and theoretical total voltage is sum of voltage of an OSC (VOSC) and VPNG. However, electrons from OSC are influenced by piezoelectric potential in ZnO and current loss of OSC in whole circuit decreases. As a result, VOSC increases temporarily. Current shows the similar behavior. PNG acts a resistance in the whole circuit and current loss occurs when the electrons from OSC pass through the PNG. But piezoelectric potential recover current loss and decrease the resistance of PNG. Our PNG can maintain piezoelectric potential when the strain is held owing to the LDH layer while general PNG cannot maintain piezoelectric potential. During the section that strain is held, voltage enhancement effect is maintained and same effect appeared even turn off the light. Actually at this time, electrons in ZnO nanosheets move to LDH and trapped by the positive charges in this layer. After this strain is held, piezoelectric potential of ZnO nanosheets is disappeared but potential difference which is developed by negative charge dominant LDH layer is remained. This potential acts similar role like piezoelectric potential in ZnO. Electrons from the OSC also are influenced by this potential and the more current flows.