• Geophysics and Geophysical Exploration
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• v.2 no.1
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• pp.43-53
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• 1999

Numerical modeling and inversion for electromagnetic exploration methods are essential to understand behaviour of electromagnetic fields in complex subsurface. In this study, a finite element method was adopted as a numerical scheme for the 2.5-dimensional forward problem. And a finite element equation considering linear conductivity variation was proposed, when 2.5-dimensional differential equation to couple eletric and magnetic field was implemented. Model parameters were investigated for near-field with large source effects and far-field with responses dominantly by homogeneous half-space. Numerical responses by this study were compared with analytic solutions in homogeneous half-space. Blocky inversion model was modified to be applied to the forward calculation in this study and it was also adopted in the inversion algorithm. Resolution for isolated bodies were investigated to confirm possibility and limitation of inversion for electromagnetic exploration data.

• The Journal of Korean Institute of Electromagnetic Engineering and Science
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• v.16 no.12 s.103
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• pp.1246-1254
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• 2005

Theoretical investigation is made on the electromagnetic fields generated by an impulsive point current source, fur the VV, HV, and VH problems at the interface between an isotropic upper half-space medium and a normally uniaxial lower half-space medium. The electric fields of these problems are associated only with the extraordinary-wave components in the Fourier-Laplace domain. Applying the Cagniard-de Hoop method to each problem, the time-domain solutions of the wave fields are obtained. The fields of the VV case can be expressed in explicit(integral-free) forms. The fields of the HV and VH cases are not integral-free, but the major singularities implicit in the integral solutions can be analytically extracted. The interfacial far fields in the frequency domain are determined by the singularities in the time domain.

• Restorative Dentistry and Endodontics
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• v.31 no.5
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• pp.390-397
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• 2006

The purpose of this study was to evaluate the accuracy and the consistency of four different electronic apex locators in an in vitro model. Fourty extracted premolars were used for the study. Four electronic apex locators (EAL) were Root ZX, Smarpex, Elements Diagnostic Unit (EDU), and E-Magic Finder Deluxe (EMF). After access preparation, the teeth were embedded in an alginate model and the length measurements were carried out at '0.5' and 'Apex' mark using four EALs. The file was cemented at the location of the manufacturers' instruction (Root ZX, EDU, EMF: 0.5 mark, SmarPex: Apex mark). The apical 4mm of the apex was exposed and the distance from the file tip to the major foramen was measured by Image ProPlus (${\times}100$). The distance from the file tip to the major foramen was calculated at 0.5 and Apex mark and the consistency of 0.5 and Apex mark was compared by SD and Quartile of Box plots. In this study, Root ZX and EMF located the apical constriction accurately within ${\pm}0.5 mm$ in 100%, whereas SmarPex and EDU located in 90% and in 70% respectively. For Root ZX and EMF, there was no significant difference between the consistency of 0.5 and Apex mark. However, for the EDU and SmarPex, Apex mark was more consistent than 0.5 mark. From the evaluation of the consistency in this study, for Root ZX and EMF, both 0.5 and Apex mark can be used as a standard mark. And for EDU and SmarPex, the Apex mark can be recommended to be used as a standard mark.

• The Journal of Korean Society for Radiation Therapy
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• v.20 no.2
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• pp.103-107
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• 2008

Purpose: This paper describes a electron field presence of magnetic field, intensity and shape surface dose variation to clinical application possibility. Materials and Methods: The using 6 MeV electron and $10{\times}10\;cm^2$ field size, 9 hole to shielding block make the by measure the film, when the magnetic field position inside and outside of the X-Omat film and parallel plate ionization chamber using the surface dose measured. Results: Present of 4 cm to the side at angle about 3 degree from beam center, use of ring type magnetic is 0.9% increase the surface dose, lens block located in the magnetic field the surface dose 1.58% increase, half magnetic field's position on the side of them at the field center of the 3.6% increase of the surface dose. Conclusion: Surface dose variation is with magnetic field about the mean electron beam of progress direction change, orbit region patient's is inconvenient without surface dose increase percentage case goodness will be used as a useful way.

• Proceedings of the KIEE Conference
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• 2006.10d
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• pp.31-33
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• 2006

전력수요의 증가에 대하여 전력을 공급하는 발전기의 대용량화, 고전압화 소형경량화 됨에 따라 발전기 고장 예방을 위한 진단이 더욱더 중요시되고 있다. 이들 발전기의 전기적 고장의 대부분은 고정자 및 회전자 권선에서 발생하며 이의 고장을 복구하는데 장시간이 요구되므로, 발전기의 예측진단에 따른 정비와 더불어 고장을 미연에 발견하고 불시정지에 따른 파급을 막기 위해서는 상시감시가 요구된다. 본 연구에서는 소용량 동기발전기를 이용하여 발전기 회전자권선의 단락 고장진단을 위한 공극에서의 자속패턴을 상용 전자장해석 전문프로그램을 이용하여 수치적으로 계산하여 도출하였으며, 또한 실제 회전자 권선 단락 실험을 통하여 실제 공극에서의 자속패턴과 전자장 해석결과와 비교를 하여 전자장 해석결과의 신뢰성을 확보 하였다.

• The Journal of Korean Institute for Practical Engineering Education
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• v.2 no.2
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• pp.55-60
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• 2010

We usually encounter Electro-magnetics phenomenons and only feel some part of that, but it is hard to feel it visually. Moreover understanding physically and quantitatively is not a easy work. These electrostatic field theory, magnetostatic field theory and interchange magnetic field theory combined with electromagnetic field are formulated experimentally and theoretically by James Clerk Maxwell in 1873. Electromagnetic field takes electro-magnetic phenomenons as a expansion of formula originated in Maxwell equations. Since this is based on expansion of formula, it is hard to understand for many students not only middle school and high school students learning it at the first time but also college students studying physics as a elementary class and even majors in electromagnetic field. The program is developed as a visual aid to cope with these problems, and even to deal with complex problem to estimate solution using numerical method.

• Electrical & Electronic Materials
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• v.11 no.11
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• pp.135-139
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• 1998

• Proceedings of the Korean Vacuum Society Conference
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• 2012.02a
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• pp.494-494
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• 2012

최근에 현대 물리학과 과학의 정점에 있는 초전도가속기 같은 고에너지 빔 가속기 시스템에서 Diocotron instability의 연구가 재조명 되고 있다. 환형의 전자 빔 사이로 프로톤 빔을 통과시키는 구조로써 자기장과 회전하는 전자빔의 상호작용에 기초를 두고 있으며 이 환형의 전자 빔이 고에너지의 프로톤 빔을 집속하는 역할을 한다. 하지만 전자빔이 진행함과 동시에 왜곡되는 현상이 발생하는데 이 왜곡되는 현상을 충분히 조절하지 못한다면 프로톤 빔의 손실과 가속하는 빔의 에너지 저하를 초래하게 될 것이고 또한 실험장치 자체에도 큰 결함을 발생 시킬 수 있다. 따라서 Diocotron instability는 가속기를 활성화 하는데 주요한 테마가 될 것이다. 환형의 전자 빔 층은 정전기적 효과로 인해서 안쪽과 바깥쪽의 속도차가 발생하게 되고 이로 인하여 drift instability 가 발생하게 되어서 왜곡이 발생하고 결국에는 몇 개의 소용돌이를 생성하게 된다. 본 연구에서는 이를 2차원 원통형 구조의 Particle-in-cell 시뮬레이션을 통하여 연구하였으며 자기장의 효과에 따른 환형의 전자빔의 왜곡현상을 지연시키는 방안에 중점을 두었다. 특히 자기장의 세기, 전자빔의 밀도, 전자빔 층의 두께, 전자빔의 프로필의 차이에 의한 결과로 연구하였다.

• The Journal of the Korea institute of electronic communication sciences
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• v.14 no.3
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• pp.613-618
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• 2019

EMF (Electromagnetic Field) is a valuable resource for living in a knowledge-based information society. The EMF is used in home appliances that make our lives easy and convenient, and in telecommunication devices such as mobile phones, personal computers, medical devices and broadcasting towers. However, the biological hazards associated with EMF exposure are also increasing in signal from telecommunication devices. Studies of the effects of EMF exposure on humans have been conducted for a long time, but it has not yet been demonstrated whether the EMF effect is harmful. In this paper, we examine the electromagnetic field emitted from various electronic devices around living and its effect.

• Restorative Dentistry and Endodontics
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• v.30 no.6
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• pp.477-485
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• 2005

The aim of this study was to compare the length between the mesio-buccal and mesio-lingual canal of the mandibular molars before and after early coronal flaring at the different measuring time using several electronic apex locators. Fifty mandibular molars with complete apical formation and patent foramens were selected. After establishing the initial working length of the buccal and lingual canal of the mesial root using a surgical microscope (Carl Zeiss Co Germany) at 25X with #15 K-fle tip just visible at the foramen, radiographs were taken for the working length. After measuring the length of mesio-buccal and mesio-lingual canal (control group), the electronic lengths were measured at different times using several electronic apex locators (experimental groups; I-Root ZX, II-Bingo, III-Propex, IV-Diagnostic). After early coronal flaring using the $K^3$ file, the additional electronic lengths were measured using the same manner The results were as follows: One canal has a correct working length for the mesial root of the mandibular molar, it can be used effectively for measuring the electronic working length of another canal when the files are superimposed or encountered at the apex. In addition, the accuracy of the electronic apex locators was increased as the measurement was accomplished after the early coronal flaring of the root canal and the measuring time was repeated.