http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
개별검색 DB통합검색이 안되는 DB는 DB아이콘을 클릭하여 이용하실 수 있습니다.
통계정보 및 조사
예술 / 패션
<해외전자자료 이용권한 안내>
- 이용 대상 : RISS의 모든 해외전자자료는 교수, 강사, 대학(원)생, 연구원, 대학직원에 한하여(로그인 필수) 이용 가능
- 구독대학 소속 이용자: RISS 해외전자자료 통합검색 및 등록된 대학IP 대역 내에서 24시간 무료 이용
- 미구독대학 소속 이용자: RISS 해외전자자료 통합검색을 통한 오후 4시~익일 오전 9시 무료 이용
※ 단, EBSCO ASC/BSC(오후 5시~익일 오전 9시 무료 이용)
Local M-H loops have been measured on the free layer of a tunneling magnetoresistance (TMR) junction using the magneto-optical Kerr effect (MOKE) system, with an optical beam size of about 2 ㎛ diameter. Tunnel junctions were deposited using the DC magnetron sputtering method in a chamber with a base pressure of 3 × 10^(-9) Torr. The relatively irregular variations of coercive force Hc (~17.5 Oe) and unidirectional anisotropy field Hua (~7.5 Oe) in the as-deposited sample are revealed. After 200 ℃ annealing, Hc decreases to 15 Oe but Hua increases to 20 Oe with smooth local variations. Two-dimensional plots of Hc and Hua show the symmetric saddle shapes with their axes aligned with the pinned layer, irrespective of the annealing field angle. This is thought to be caused by geometric effects during deposition, together with a minor annealing effect. In addition, the variation of root mean square (RMS) surface roughness reveals it to be symmetric with respect to the center of the pinned-layer axis, with the roughness of 2.5 Å near the edge and 5.8 Å at the junction center. Comparison of surface roughness with the variation of Hua suggests that the Hua variation of the free layer is well described by dipole interactions related to surface roughness. As a whole, the reversal magnetization is not uniform over the entire junction area and the macroscopic properties are governed by the average sum of local distributions.
게놈 프로젝트 이후 급격하게 발전하고 있는 나노자성-바이오·의료 컨버젼스 기술은 신약 개발 프로세스, 임상 진단 등의 분야에 혁신적인 변화를 일으킬 것으로 주목을 받고 있다. 이 중에서 차세대 바이오 에세이 기술은 암, 임상·유전적 질병의 조기진단 및 현장진단(point-of-care)과 같은 유비쿼터스 진단(U-health care)시대에 부응하는 휴대화·자동화·고속화·저비용화·사용편의성뿐만 아니라 post-genome 시대의 요구에 맞는 대용량화·다중 감지화 요건을 충족하는 기술이다. 본 논고에서는 바이오 에세이용 자기센서 및 미세유체역학하에서 바이오 분자 이송용 온 칩 자석(on-chip magnet) 연구에 대해서 소개하고자 한다. To meet on going challenges in nano-biomedical technology, the convergence of “spintronics”, “biomedical” technology is a major break through in imaging, diagnosis and therapy, high-throughput genomic analysis. Especially magnetic bioassay is one of crucial devices for early diagnosis of specific analytes, point-of-care and U-health care application. In this paper, current status on high resolution magnetic sensors for bioassay and on-chip magnets for biomolecule transportation will be reviewed.
Over the past few years, a considerable number of studies have been made on inquiry-based language learning. These studies lay the groundwork for inquiry-based language learning can be understood as a cognitive process of thinking. Some studies named this cognitive process as Grammatical thinking. The purpose of this study was to demonstrate that Grammatical thinking is scientific thinking and scientific reasoning. I have revealed that the existing five-step of the inquiry-based learning process is based on Karl Popper's the hypothetico-deductive method. And I have revealed that Karl Popper's the hypothetico-deductive method is based on Charles Sanders Peirce's philosophy of science. Besides, the hypothetico-deductive method can be applied to inquiry-based language learning as well as inquiry in science and social studies. This study is intended to contribute to theoretically explain the e ssence of inquiry-based language learning. Based on this study, I look forward to designing inquiry tasks or activities about gramma r that can improve learners' ability to think grammatically.
<P>Forward error correction (FEC) is the preferred way of coping with the error-prone nature of wireless links in broadcasting systems, because it can provide a bounded delay, which is a particular consideration for real-time multimedia applications. Additionally, controlling the variability of the delay, or jitter, is important in achieving seamless multimedia services. We show that error control using Reed-Solomon (RS) FEC in the medium-access control (MAC) layer can be a major source of jitter. We predict the expected delay incurred by RS decoding for varying levels of block interleaving in a mobile, under a range of channel conditions, using a hybrid simulation and analytic approach, which is based on the error statistics of data transmission over fading channels. The results allow us to determine the size of the buffer required to avoid frequent service interruptions.</P>